KR20190078715A - 암 유전자 및 항암제 대사 관련 유전자 변이 분석을 위한 차세대 염기 서열 분석(ngs) 기반 혼합 진단 패널 - Google Patents

암 유전자 및 항암제 대사 관련 유전자 변이 분석을 위한 차세대 염기 서열 분석(ngs) 기반 혼합 진단 패널 Download PDF

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KR20190078715A
KR20190078715A KR1020170179123A KR20170179123A KR20190078715A KR 20190078715 A KR20190078715 A KR 20190078715A KR 1020170179123 A KR1020170179123 A KR 1020170179123A KR 20170179123 A KR20170179123 A KR 20170179123A KR 20190078715 A KR20190078715 A KR 20190078715A
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신재국
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Abstract

본 발명은 암 세포의 유전체 DNA의 변이와 항암제의 약물 반응을 예측하는 유전자 변이를 검출하는데 사용하기 위한 조성물, 상기 조성물을 포함하는 차세대 염기 서열 분석(NGS) 기반 혼합 진단 패널, 및 상기 패널을 이용하여 상기 유전자 변이를 진단 및 검출하는 방법에 관한 것이다.
본 발명의 암 세포의 유전체 DNA의 변이 및 약물 반응 유전자의 변이를 검출 및 진단하기 위한 방법은 주요 암 관련 유전자 및 약물 대사유전자의 다양한 유전자 변이를 단 한번의 실험을 통해 검출할 수 있어 각각의 유전체 변이마다 다른 플랫폼을 사용하는 종래 방법보다 매우 경제적이고 효율적이다. 또한 암의 유발, 진행 및 약물 대사 관련된 주요 유전자를 대상으로 높은 커버리지 (high coverage)로 시퀀싱함으로써 고해상도를 확보하여 기존 방법으로 검출이 되지 않았던 낮은 빈도 유전체 변이의 동정이 가능하다. 따라서, 본 발명의 방법을 이용하면 암 세포의 유전체 DNA의 변이와 약물 반응을 예측하는 유전자 변이를 포함하는 시료에서 다양한 유전자 변이를 동시에 높은 민감도와 정확도로 분석할 수 있고, 이러한 분석 결과를 바탕으로 환자 맞춤형 암 치료제를 효율적으로 탐색할 수 있다.

Description

암 유전자 및 항암제 대사 관련 유전자 변이 분석을 위한 차세대 염기 서열 분석(NGS) 기반 혼합 진단 패널{NEXT GENERATION SEQUENCING (NGS)-BASED HYBRID DIAGNOSTIC PANEL FOR ANALYZING VARIATION OF CANCER GENE AND ANTICANCER DRUG-RELATED GENE}
본 발명은 암 세포의 유전체 DNA의 변이와 항암제의 약물 반응을 예측하는 유전자 변이를 검출하는데 사용하기 위한 조성물, 상기 조성물을 포함하는 차세대 염기 서열 분석(NGS) 기반 혼합 진단 패널, 및 상기 패널을 이용하여 상기 유전자 변이를 진단 및 검출하는 방법에 관한 것이다.
이하에 기술되는 내용은 단순히 본 발명과 관련되는 배경 정보만을 제공할 뿐 종래기술을 구성하는 것이 아니다.
암은 신체의 어느 조직에서나 발생할 수 있으며, 암세포는 일반적으로 인접한 조직에 침투하여 파괴하고, 점점 순환계를 침범하여 암 발생 부위로부터 멀리 떨어진 신체의 다른 부위로 전이되어 결국 숙주(예를 들면 사람)를 죽게 한다. 암세포는 비정상적으로 분열하며, 현미경 하에서 관찰해 보면 정상적인 조직이나, 세포의 형태를 잃고 비정상적인 기능을 나타낸다. 암은 종양의 형태에 따라 다양한 유전자 변이를 동반할 수 있으며, 암 발생과 진행에 있어 세포 돌연변이가 큰 영향을 미친다는 것이 보고되고 있다.
따라서 암세포로부터 유전자 변이를 검출하는 다양한 방법들이 연구되고 있으며, 검출된 돌연변이 정보는 암환자의 진단 및 정밀 맞춤 항암제 선정에 많은 도움을 줄 수 있다.
기존 유전체 변이 검출 방법들은 한 개의 유전체 변이만을 검출할 수 있도록 고안된 앰플리콘 (amplicon) 및 프로브 (probe)를 사용하고 있으므로, 암의 원인이 되는 다양한 체세포 돌연변이를 검출하기 위해서는 다른 유전체 변이의 검출을 위한 추가 실험이 필요하며, 기존에 밝혀진 변이 이외의 새로운 변이를 발견할 수 없다는 단점을 갖는다.
또한 기존의 방법은 각 유전체 변이 종류에 따라 별도의 검출 방법 (예, SNV: real-time PCR, CNV: CGH array; 또는 전좌: FISH;등)을 수행하기 때문에, 한명의 암조직을 대상으로 모든 종류의 변이를 검출하기 위해서는 많은 시간이 소요되고, 큰 비용이 발생하게 된다.
최근 차세대 염기 서열 분석(NGS) 기법의 도입으로 여러 개의 암 관련 유전자를 동시에 분석하는 것이 가능 해졌으나 진단 패널이 외국에서 주로 개발된 경우 한국인에는 제한적으로 적용된다. 뿐만 아니라 암 진단 및 표적 함암제를 위한 암유전체 뿐만 아니라 항암제를 대사하는 대사효소의 유전형 또한 약물 부작용 예방을 위해서 검사가 필요하고, 이를 위해 암 환자에게 발생한 다양한 약물대사 유전자를 포함하는 유전자 변이를 민감도 및 정확성이 높으면서 간편하고 신속하게 검출할 수 있는 방법이 필요하다.
예를 들어, 이리노테칸 (Irinotecan) 대사에 관여하는 UGT1A1의 경우에도 서양인에서는 UGT1A1*28이 항암제 부작용의 중요한 유전자 지표로 알려져 있으나 한국인과 일본인에서는 그 외에 UGT1A1*6 (한국인 18%)의 빈도가 높으므로 이를 고려해야하고, 타목시펜 (Tamoxifen) 대사에 관여하는 CYP2D6의 경우에도 한국인 특이적 빈도를 보이는 CYP2D6*52 (1%) 및 CYP2D6*60 (1%) 유전형도 고려해야한다.
따라서 한국인 호발 암 유전자 및 항암제 대사에 관련된 약물 반응을 예측하는 유전자의 변이를 검출하고 분석할 수 있는 한국인 맞춤형 암 진단 패널의 개발이 절실하다.
이에 본 발명자들은 한국인 맞춤형 암 진단 패널의 개발에 대해 연구하던 중 차세대 염기 서열 분석 (NGS) 기반 기술을 활용하면 관련 유전자의 전체 유전자를 대상으로 빠르고 효과적으로 한국인 호발 암 유전자 및 항암제 대사에 관련된 약물 반응을 예측 및 검출할 수 있음을 확인함으로써 본 발명을 완성하게 되었다.
따라서 본 발명의 목적은 암 세포의 유전체 DNA의 변이 및 약물 반응 유전자의 변이를 검출하기 위한 조성물을 제공하는 것이다.
또한, 본 발명의 다른 목적은 상기 조성물을 포함하는 차세대 염기 서열 분석(NGS) 기반 혼합 진단 패널을 제공하는 것이다.
또한, 본 발명의 목적은 상기 패널을 이용하여 상기 유전자 변이를 진단 및 검출하는 방법에 관한 것이다.
상기한 목적을 달성하기 위하여,
본 발명은 암 유전자 또는 항암제 대사관련 유전자의 표적 부위를 증폭할 수 있는 프라이머를 이용하여 시료의 DNA로부터 표적 부위를 증폭하는 단계;
상기 증폭된 산물에 어댑터 (adapter)를 부착하는 단계;
상기 어댑터가 부탁된 산물을 증폭하여 최종 산물을 제조하는 단계; 및
상기 최종 산물의 서열을 분석하여 상기 표적 부위에 대한 앰플리콘 (amplicon)의 서열과 비교하여 유전자 변이를 검출하는 단계
를 포함하는 것을 특징으로 하는, 암 유전자 및 항암제 대사 관련 유전자 변이 분석을 위한 차세대 염기 서열 분석(NGS) 방법을 제공한다.
본 발명에 있어서, 상기 암 유전자 또는 항암제 대사관련 유전자는 표 1에 기재된 유전자로부터 선택되는 1종 이상인 것일 수 있다.
본 발명에 있어서, 상기 표적 부위는 표 1에 기재된 표적 부위로부터 선택되는 1종 이상인 것일 수 있다.
본 발명에 있어서, 상기 프라이머는 표 2에 기재된 서열번호 1 내지 96의 프라이머로부터 선택되는 것일 수 있다.
본 발명에 있어서, 상기 앰플리콘은 표 3에 기재된 서열번호 97 내지 128의 서열로부터 선택되는 것일 수 있다.
본 발명에 있어서, 상기 증폭된 산물을 정제하는 단계를 추가로 포함할 수 있다.
또한 본 발명은 암 유전자 또는 항암제 대사관련 유전자의 표적 부위를 증폭할 수 있는 프라이머를 포함하는 것을 특징으로 하는, 시료의 DNA로부터 표적 부위를 증폭하기 위한 조성물을 제공한다.
본 발명에 있어서, 상기 암 유전자 또는 항암제 대사관련 유전자는 표 1에 기재된 유전자로부터 선택되는 1종 이상인 것일 수 있다.
본 발명에 있어서, 상기 표적 부위는 표 1에 기재된 표적 부위로부터 선택되는 1종 이상인 것일 수 있다.
본 발명에 있어서, 상기 프라이머는 표 2에 기재된 서열번호 1 내지 96의 프라이머로부터 선택되는 것일 수 있다.
본 발명은 또한 상기 조성물, 어댑터 및 바코드 프라이머를 포함하는 것을 특징으로 하는, 암 유전자 및 항암제 대사 관련 유전자 변이 진단 패널을 제공한다.
본 발명의 암 세포의 유전체 DNA의 변이 및 약물 반응 유전자의 변이를 검출 및 진단하기 위한 방법은 주요 암 관련 유전자 및 약물 대사유전자의 다양한 유전자 변이를 단 한번의 실험을 통해 검출할 수 있어 각각의 유전체 변이마다 다른 플랫폼을 사용하는 종래 방법보다 매우 경제적이고 효율적이다. 또한 암의 유발, 진행 및 약물 대사 관련된 주요 유전자를 대상으로 높은 커버리지 (high coverage)로 시퀀싱함으로써 고해상도를 확보하여 기존 방법으로 검출이 되지 않았던 낮은 빈도 유전체 변이의 동정이 가능하다. 따라서 본 발명의 방법을 이용하면 암 세포의 유전체 DNA의 변이와 약물 반응을 예측하는 유전자 변이를 포함하는 시료에서 다양한 유전자 변이를 동시에 높은 민감도와 정확도로 분석할 수 있고, 이러한 분석 결과를 바탕으로 환자 맞춤형 암 치료제를 효율적으로 탐색할 수 있다.
도 1은 본 발명의 실시예 1에서 제작된 프라이머 및 앰플리콘을 이용하여 시료로부터 변이 유전자를 검출하는 방법을 간략하게 나타낸 도면이다.
도 2는 실시예 2에서 얻은 데이터를 상용화된 데이터 분석 소프트웨어인 Illumina VariantStudio를 활용해서 분석하는 과정을 나타내는 도면이다.
도 3은 실시예 2에서 얻은 데이터를 상용화된 데이터 분석 소프트웨어인 Illumina VariantStudio를 활용해서 분석한 결과를 나타내는 도면이다.
도 4는 실시예 2에서 얻은 데이터를 annotation & classification을 활용해서 분석한 결과를 나타내는 도면이다.
본 발명은 암 유전자 및 항암제 대사 관련 유전자 변이 분석을 위한 차세대 염기 서열 분석(NGS) 방법을 제공한다.
구체적으로, 상기 방법은 하기의 단계들을 포함할 수 있다:
암 유전자 또는 항암제 대사관련 유전자의 표적 부위를 증폭할 수 있는 프라이머를 이용하여 시료의 DNA로부터 표적 부위를 증폭하는 단계;
상기 증폭된 산물에 어댑터 (adapter)를 부착하는 단계;
상기 어댑터가 부탁된 산물을 증폭하여 최종 산물을 제조하는 단계; 및
상기 최종 산물의 서열을 분석하여 상기 표적 부위에 대한 앰플리콘 (amplicon)의 서열과 비교하여 유전자 변이를 검출하는 단계.
본 발명에 있어서, 상기 암 유전자 또는 항암제 대사관련 유전자는, 바람직하게는 한국인에서 호발하는 암 유전자 및 상기 암을 치료하기 위한 항암제의 대사과정에 작용하는 유전자일 수 있으며, 더욱 바람직하게는 하기 표 1에 기재된 유전자로부터 선택되는 1종 이상인 것일 수 있다.
유전자명 관련 암종 관련 약물 표적부위
AKT1 유방암 - E17K
BRAF 흑색종, 결장암, 폐암, 난소암 Vemurafenib V600E/K/R/M
EGFR 폐암 Elotinib,gefitinib Exon18,19,20,21
ERBB2 유방암, 폐암 trastuzumab, neratinib, lapatinib A775_G776YVMA
FOXL2 난소암 - C123W
KIT 위암, 흑색종 Imatinib,nilotinib,sorafenib Exon8-11,13.14,17,18
KRAS 결장암, 위암, 폐암 Cetuximab, panitumumab Exon2, 3,4
MET 폐암, 결장암, 위암 Trametinib Focal Amplification
BRCA1 유방암 Olabarib, veliparib, iniparib Full CDS
BRCA2 유방암 Full CDS
NRAS 결장암, 위암, 폐암 binimetinib,palbociclib,sorafenib Exon2, 3
PDGFRA 위암, 흑생종 Sorafenib Exon12,14,18
PIK3CA 페암, 유방암, 전립선암 Idelisinib Exon9,20
RET 폐암 Vandetanib,Sorafenib M918T
TP53 폐암, 흑색종, 난소암, 결장암 - Full CDS
UGT1A1 결장암 Irinotecan *6,*28
CYP2D6 유방암 Tamoxifen Full CDS
TPMT 혈액암 Mercaptopurine, azatioprine *2 *3B, *3C, *6
MTHFR 혈액암 Thiopurin 677C>T 1298A>C
DPYD 위암 5'-Fluorouracil Full CDS
본 발명에 있어서, 상기 표적 부위는 상기 표 1에 기재된 표적 부위로부터 선택되는 1종 이상인 것일 수 있다.
본 발명에 있어서, 상기 프라이머는 상기 유전자의 표적 부위를 증폭하기 위한 것으로, 하기 표 2에 기재된 프라이머로부터 선택되는 것일 수 있으며, 바람직하기로는 서열번호 1 내지 96의 프라이머로부터 선택되는 것일 수 있다.
정방향 프라이머명 서열번호 프라이머서열 역방향 프라이머명 서열번호 프라이머서열
>520999_MTHFR_01_FOR 1 GGGCACAGGATGGGGAAGTCACAGC >520999_MTHFR_01_REV 2 CGGGAGAACCAAACCGGAATGGTCAC
>520999_MTHFR_02_FOR 3 GAACCAGGGTCCCCACTCCAGCATC >520999_MTHFR_02_REV 4 TGGGGAGCTGAAGGACTACTACCTCTTC
>520999_MTHFR_03_FOR 5 ACATCTTCAGCAGCTCCTCCTTGGG >520999_MTHFR_03_REV 6 TACAGGAATGGCCTCCTGGGCATGTG
>520999_MTHFR_04_FOR 7 TCAGCGAACTCAGCACTCCACCCAGAG >520999_MTHFR_04_REV 8 CTTCCGCTTTGTGAAGGCATGCACCGA
>520999_MTHFR_05_FOR 9 GAGGGAGCTTATGGGCTCTCCTGG >520999_MTHFR_05_REV 10 CTGAAGCACTTGAAGGAGAAGGTGTCTGC
>520999_MTHFR_06_FOR 11 ATGTGTCAGCCTCAAAGAAAAGCTGC >520999_MTHFR_06_REV 12 CTCTCCTGACTGTCATCCCTATTGGCAG
>520999_MTHFR_07_FOR 13 TTCAAGTGCTTCAGGTCAGCCTCAAAG >520999_MTHFR_07_REV 14 TGGTCTCTTCATCCCTCGCCTTGAACA
>520999_DPYD_01_FOR GCAGAAGAGCAATATTTGGCACCACTGG >520999_DPYD_01_REV GTGTATCAACTGTGGTAAATGCTACATGACCTG
>520999_DPYD_02_FOR CATGTCTCATAGCATTCTAATTCCAGCAGG >520999_DPYD_02_REV AGCACTGCAGTACCTTGGAACATTTGGT
>520999_DPYD_03_FOR TTCTTCATCAATCATAGCCACAACTTGCTC >520999_DPYD_03_REV GGAATGAGCTTGCTAAGTAATTCAGTGGC
>520999_DPYD_04_FOR GGTACTGCAGTGCTTTTCCTATTACATCC >520999_DPYD_04_REV GCAACATTGTATAAAAACAGGAAAATGCTGAGTG
>520999_DPYD_05_FOR GATCTGAAATAGAAACCAAGGCTGAGTTCTC >520999_DPYD_05_REV CAGAGTCCAGCTACTGTGAGTCACCAG
>520999_DPYD_06_FOR TGTCCATGAGTTCAGCTATACGTGGAACTG >520999_DPYD_06_REV CTAGGTATGCAGTGCCATTCAGAATCAGG
>520999_DPYD_07_FOR GCTTTGAGGCCAGTGCAGTAGTCTTCG >520999_DPYD_07_REV GTGAATTTGTTTGGAGAATTATCTCTTGGTTTGACAC
>520999_DPYD_08_FOR GGGCACAAAACTCTTGCAACATGACCTTC >520999_DPYD_08_REV GTCTCAGGTCTGATGGGATTAAAATCTGATGGC
>520999_DPYD_09_FOR GTTCGCTTTGCAATCCCCACTGCTG >520999_DPYD_09_REV GGGTTTTAACTATCGTGTCTTATAAGAGCTGC
>520999_DPYD_10_FOR GGCATTCACCAACTTATGCCAATTCTCTTG >520999_DPYD_10_REV GTATGGCCCTGGACAAAGCTCCTTTC
>520999_DPYD_11_FOR CCAATATGCAGCCGTTTTCTCACTGATG >520999_DPYD_11_REV GGGGCTTTTCTTTGTCAAAAGGAGACTC
>520999_DPYD_12_FOR GGAGGGGACATTTCTATATGACTTCAATAATATTTTC >520999_DPYD_12_REV GGACATTAGTGTAGAAATGGCCGGATTGAAG
>520999_DPYD_13_FOR GGAGTTGCGCTAGCAAGACCAAAAGG >520999_DPYD_13_REV GGAGGGGATGTAATATGAAACCAAGTATTGG
>520999_DPYD_14_FOR GAAGGCAGTCATTCTTCTGGATATTGCTAGG >520999_DPYD_14_REV GCGGTAAAAGCCTTTCAGTGAATGAAATGAC
>520999_DPYD_15_FOR CCTATTCCAATGAAAGCAGCTTTGTAGCC >520999_DPYD_15_REV GGGGAATCTCATAGAATTTTTGGCTGAC
>520999_DPYD_16_FOR GCATGACATTTGCTGTTAATCTTTAGTGTAGAGC >520999_DPYD_16_REV TCTTTTCAGTACTTCTGAAATTCCTCAGTTCC
>520999_DPYD_17_FOR GCACCAAGGTCCTTCATTAGCTCAATCTC >520999_DPYD_17_REV GGTCAAAGATTGGTCATTTTTCTACTGATGCC
>520999_DPYD_18_FOR AAGATATTTGTGCATGGTGATGGTAGTGGG >520999_DPYD_18_REV CACTTGGTCTGACTTGTGGAATGGTATG
>520999_DPYD_19_FOR GGTTGCATCCACCTACACAAAGATCAG >520999_DPYD_19_REV GGGAAGAAATAATGTTTGTCGTAATTTGGCTG
>520999_DPYD_20_FOR GCTAAGACAAGCTGTATTCTGTACCCACAG >520999_DPYD_20_REV CCTAGATGCCTGAAATGTGCAGATGC
>520999_DPYD_21_FOR GGCCTTGTTTGCAATACTTGTGATGAATG >520999_DPYD_21_REV GGACACGGACTCTGAATGAGTATAAGGTAG
>520999_DPYD_22_FOR CTTGCCTTACAATGTGTGGAGTGAGG >520999_DPYD_22_REV TCCTGGCTTTAAATCCTCGAACACAAACT
>520999_DPYD_23_FOR GTTTCTTGTCTAATTTCTTGGCCGAAGTGG >520999_DPYD_23_REV CTGGGAGTTTAAACAAATGCCAACATATTTCC
>520999_NRAS_01_FOR CCAGAGTTAATCAACTGATGCAAACTCTTGC >520999_NRAS_01_REV GGTGCTAGTGGGAAACAAGTGTGATTTG
>520999_NRAS_02_FOR CAGTTCGTGGGCTTGTTTTGTATCAACTG >520999_NRAS_02_REV GCCCAGCCTAATCTTGTTTTTCTTATGTTCTG
>520999_NRAS_03_FOR CCCCATAAAGATTCAGAACACAAAGATCATCC >520999_NRAS_03_REV GATACAGCTGGACAAGAAGAGTACAGTGC
>520999_NRAS_04_FOR CAAATACACAGAGGAAGCCTTCGCCTG >520999_NRAS_04_REV CCCCCAGGATTCTTACAGAAAACAAGTGG
>520999_NRAS_05_FOR GCTGTATCCAGTATGTCCAACAAACAGGTTTCA >520999_NRAS_05_REV GGGATGCTTATTTAACCTTGGCAATAGCATTG
>520999_NRAS_06_FOR AAGATGATCCGACAAGTGAGAGACAGG >520999_NRAS_06_REV GAAATGACTGAGTACAAACTGGTGGTGG
>520999_NRAS_07_FOR GGATTGTCAGTGCGCTTTTCCCAACAC >520999_NRAS_07_REV GGGAAAGCTTTAAAGTACTGTAGATGTGGCTC
>520999_UGT1A1_01_FOR GAAATTCCAGCCAGTTCAACTGTTGTTGCC >520999_UGT1A1_01_REV CCAAGTTAATGTTTGACTGTGTCACGTGAC
>520999_UGT1A1_02_FOR GAACTCCCTGCTACCTTTGTGGACTGAC >520999_UGT1A1_02_REV TGACGACTTTGCTCCTGCCAGAGGTTC
>520999_UGT1A1_03_FOR TGACACAGTCAAACATTAACTTGGTGTATCG >520999_UGT1A1_03_REV GTATCTTCCCAGCATGGGACACCACTG
>520999_UGT1A1_04_FOR GAAGCAAAGACGCCATGGCTGTGGAGTC >520999_UGT1A1_04_REV CAACTATTTCATGTCCCCTCTGCTGCAGC
>520999_UGT1A1_05_FOR GATGACAGACACTGGCTGAGCATGCTTGG >520999_UGT1A1_05_REV GGAATGGCACAGGGTACGTCTTCAAGG
>520999_UGT1A1_06_FOR CACCTGACGCCTCGTTGTACATCAGAG >520999_UGT1A1_06_REV CTTGTATGTTTTGATCACACGCTGCAGG
>520999_UGT1A1_07_FOR GGGAGTCTTTTGTTAGTCTCGGGCATAATG >520999_UGT1A1_07_REV CATGACATCAAAGCTGCTTTCTGCCAG
>520999_UGT1A1_08_FOR CTGTTCCCACTTACTGCACAACAAGGAGC >520999_UGT1A1_08_REV GCACTGGGTAGCCTCAAATTCCAGGC
>520999_UGT1A1_09_FOR CTCTGCCCACTGTATTCTTCTTGCATGC >520999_UGT1A1_09_REV CAGAAAGTTCTGTGAAAAGGCAATGAGCATG
>520999_UGT1A1_10_FOR CTCATTCAGATCACATGACCTTCCTGCAGC >520999_UGT1A1_10_REV CAGCCAGACAGATGCAGAGCTCAATAGG
>520999_UGT1A1_11_FOR CGTATGCAACCCTTGCCTCAGAATTCC >520999_UGT1A1_11_REV GGATTTTGGTGAAGGCAGTTGATTCCACC
>520999_UGT1A1_12_FOR GTGAAGGATTACCCTAGGCCCATCATGC >520999_UGT1A1_12_REV CTCAGCATATATCTGGGGCTAGTTAATCGATCC
>520999_FOXL2_01_FOR CTAGCTGCTGAACTAAGGAGCGACAG >520999_FOXL2_01_REV CCATAGACCTGGTTGTACTGTAGCTTGTTG
>520999_FOXL2_02_FOR GGCACAACAAAAGTGCTCTAGTTCTCTCTAG >520999_FOXL2_02_REV CAAACCTCCTGCTTCTCCCACCTTGG
>520999_FOXL2_03_FOR CAGAGACACAAGACCGCCTAGGTCGG >520999_FOXL2_03_REV TGCAAGTCCTGGAGGCAGGGAGATC
>520999_FOXL2_04_FOR CAAAAAGCAGGGAGGACGAGCCGTCC >520999_FOXL2_04_REV GGGATGGTTTCGTCTACCAATTGGGGAAG
>520999_FOXL2_05_FOR CCAGGACTTGCATCGAAAGATCCGG >520999_FOXL2_05_REV GGGCTCTTCTGGAAGATTTGCGTTAGAG
>520999_FOXL2_06_FOR GCCATCTTTTATTGGATATATTCTCCTAACTCTGAAC >520999_FOXL2_06_REV GGAAGTATTGTGGCCTTGGAGTTTGC
>520999_FOXL2_07_FOR GGGCTAAAGCTTTTGATTTTCATATTTGG >520999_FOXL2_07_REV GGGTTTTGTTTGAAAGATCGGTGGAAC
>520999_FOXL2_08_FOR CAAGGCCACAATACTTCCCCGGTTGC >520999_FOXL2_08_REV GTTTCCTCCGCTATCAGTCCCGTCGC
>520999_FOXL2_09_FOR CGATCTTTCAAACAAAACATTAGCCAGCC >520999_FOXL2_09_REV CGAACCCTCTTGAAGCTGTTCAGAAGC
>520999_FOXL2_10_FOR CAGAATACAGGCCGTGGAGCCAGGCTG >520999_FOXL2_10_REV GCCCGAGAAAGGGACGGACCAATAC
>520999_FOXL2_11_FOR GAACAGCTTCAAGAGGGTTCGCGGAG >520999_FOXL2_11_REV CAGACCTCTTGGCCTTCTCTCACAGGTC
>520999_FOXL2_12_FOR CTAGCCATGGACTGCACGGCAGTC >520999_FOXL2_12_REV CACAAGCGTCTCCTGCCCAAATTCACC
>520999_FOXL2_13_FOR GAGAGAAGGCCAAGAGGTCTGCGCTG >520999_FOXL2_13_REV CCTGTGCTCACCTCCCTGACCTCTG
>520999_FOXL2_14_FOR GAAAGAGACGAGCCCAGTAGAAAGCGC >520999_FOXL2_14_REV GGGTCCCTCTGTGCTTTTTCGCTTTCC
>520999_FOXL2_15_FOR GACATAAACTGAGGGGACAAAGAGGAGC >520999_FOXL2_15_REV GTGCAGACGGATGCGAGGATGCAG
>520999_FOXL2_16_FOR GAGACAAGAGGGTGTGAGGTCAGGCTG >520999_FOXL2_16_REV CTCTTACTGGGACCACGACAGCAAGAC
>520999_FOXL2_17_FOR GCATGCGGTGGGCTCTCAGAGATCGAG >520999_FOXL2_17_REV CAACTCAGACCTGCCAGCCCAGCCAC
>520999_FOXL2_18_FOR CAATGCATCATGGCGAGCTCGGGCTG >520999_FOXL2_18_REV CATCAGCACGCACACCATCTGCACGC
>520999_FOXL2_19_FOR GAGGACAAGTGGTGCGGTGGGGCAG >520999_FOXL2_19_REV GTACAGACCGTACACACGCGTGCAGAGCATG
>520999_FOXL2_20_FOR GCCTCCCAGGCCATTGTACGAGTTCACTACG >520999_FOXL2_20_REV CAGAGACTGAAGCAGCTGCGGCTGCAG
>520999_FOXL2_21_FOR CAGACACGCCAGCCCCTTGACCACAG >520999_FOXL2_21_REV CCCAAGTACCTGCAGTCTGGCTTCCTC
>520999_FOXL2_22_FOR CATCTGGCAGGAGGCATAGGGCATG >520999_FOXL2_22_REV CACTTCCAGCACGGCAAGGGGCTCT
>520999_FOXL2_23_FOR GTTGAGGAAGCCAGACTGCAGGTACTTG >520999_FOXL2_23_REV CGAAGACATGTTCGAGAAGGGCAACTACCG
>520999_FOXL2_24_FOR GAGACAGACGGAAGGGCCTCTTCATGC >520999_FOXL2_24_REV GGCAAAATAGCATCCGCCACAACCTCAGC
>520999_FOXL2_25_FOR CAGAGTCCAGTAGTTGCCCTTGCGCTC >520999_FOXL2_25_REV GAGAGAGGAGAAGAGGCTCACGCTGTC
>520999_FOXL2_26_FOR GAACGGGAACTTCGCGATGATGTACTGG >520999_FOXL2_26_REV GACAGAACAGACCCGGAGAAGCCGGAC
>520999_FOXL2_27_FOR GCGATGAGCGCCACGTACGAGTACG >520999_FOXL2_27_REV CTTTGTCATGATGGCCAGCTACCCCGAGC
>520999_FOXL2_28_FOR CTCCTTGACTGTGCGACCGGTCTCTG >520999_FOXL2_28_REV GACTCGTGCGCCCCAACTCTTTGCC
>520999_FOXL2_29_FOR GGGTAGCTGGCCATCATGACAAAGCC >520999_FOXL2_29_REV CAGCGACAGGCCTCCAGCAAGCAAG
>520999_FOXL2_30_FOR GGGTCTCAAACTTCTGGAGACTGCGGATG >520999_FOXL2_30_REV GACAAGGCCGGAGCCCCTCTCTGTTG
>520999_FOXL2_31_FOR GAGTGGAGCTCAGCCTCTGGCCATG >520999_FOXL2_31_REV GAGACACGGGTCGTGCTTCGGGAAAC
>520999_FOXL2_32_FOR CTTGGTGGGTTTTCTTTTCTGCGCTCTTCC >520999_FOXL2_32_REV CATGACGCAAGCGGAACTCGGTGGAG
>520999_PIK3CA_01_FOR GGGTGGCAGTCAAACCTTCTCTCTTATGTA >520999_PIK3CA_01_REV GCTAAATCCTGCTTCTCGGGATACAGACC
>520999_PIK3CA_02_FOR GCAGTGTGGTAAAGTTCCCAGATATGTCAG >520999_PIK3CA_02_REV GGGCCTTTTCCATAGAGAAAGTATCTACCTAAATCC
>520999_PIK3CA_03_FOR GCATGGTGAAAGACGATGGACAAGTAATGG >520999_PIK3CA_03_REV GCGGTGATCCAAAAAGTGTCCAAAATCTATATG
>520999_PIK3CA_04_FOR CGGGCAAGACATTTTGTATCTGCATATATCAAAC >520999_PIK3CA_04_REV GGTGGGCTCCTTTACTAATCACTATTAAGAAATCC
>520999_PIK3CA_05_FOR GGGTTATAAACGAGAACGTGTGCCATTTG >520999_PIK3CA_05_REV GGGGATTGTTTCTAATAGAGCAGCCAGAAC
>520999_PDGFRA_01_FOR CTTCAGTGAAGCTCTGGTGCACTGGGA >520999_PDGFRA_01_REV GAGTCATAAGGCAGCTGCATCGGGTCC
>520999_PDGFRA_02_FOR GCTGGAGGGTCATTGAATCAATCAGCC >520999_PDGFRA_02_REV GGCCTATAAATTGTAAAGTTGTGTGCAAGGG
>520999_PDGFRA_03_FOR TGAGAACAGGAAGTTGGTAGCTCAGCT >520999_PDGFRA_03_REV GTGGCCCCAGGTGAGTCATTATCTTCA
>520999_PDGFRA_04_FOR GGCCAGATCCAGTGAAAAACAAGCTC >520999_PDGFRA_04_REV AAGCCTGATTGAACAGTTTTCACAACC
>520999_PDGFRA_05_FOR CAGCTACAGATGGCTTGATCCTGAGTC >520999_PDGFRA_05_REV CACTGCCTTTCGACACATAGTTCGAATC
>520999_PDGFRA_06_FOR GTGAAGATCTGTGACTTTGGCCTGGC >520999_PDGFRA_06_REV GCACCGAATCTCTAGAAGCAACACCTGAC
>520999_KIT_01_FOR GAATGTTGCTGAGGTTTTCCAGCACTC >520999_KIT_01_REV CATCTCACCTCTGCTCAGTTCCTGGAC
>520999_KIT_02_FOR GCAGGATTCCCAGAGCCCACAATAG >520999_KIT_02_REV GGGAAATTCAAGTGAATTGCAGTCCTTCCC
>520999_KIT_03_FOR GGGTATGCCACATCCCAAGTGTTTTATG >520999_KIT_03_REV GCACTAGAATCTATAGAACTCTGAACCACTAGC
>520999_KIT_04_FOR CAGTGGATGTGCAGACACTAAACTCATCTG >520999_KIT_04_REV GCAGAAGTCTTGCCCACATCGTTGTAAG
>520999_KIT_05_FOR GTGCATTCAAGCACAATGGCACGGTTG >520999_KIT_05_REV GGATCATGACTGATATGGTAGACAGAGCC
>520999_KIT_06_FOR GTGGTAGAGATCCCATCCTGCCAAAGT >520999_KIT_06_REV CACATCATGCCAGCTACGATTACGAAACC
>520999_KIT_07_FOR CAAATCCATCCCCACACCCTGTTCAC >520999_KIT_07_REV GTCTCAGTCATTAGAGCACTCTGGAGAG
>520999_KIT_08_FOR GTTCTCTCTCCAGAGTGCTCTAATGACTG >520999_KIT_08_REV GTGATCATAAGGAAGTTGTGTTGGGTCTATG
>520999_KIT_09_FOR TATGAAGTACAGTGGAAGGTTGTTGAGGAG >520999_KIT_09_REV GAGTTCCTTAAAGTCACTGTTATGTGTACCC
>520999_KIT_10_FOR TGCACAAATGGTCCTTCAATTCCACC >520999_KIT_10_REV CTTGAGCATCTTTACAGCGACAGTCATGG
>520999_KIT_11_FOR GGAAGGTTGTTGAGGCAACTGCTTATGG >520999_KIT_11_REV CATGCATTTTAGCAAAAAGCACAACTGGC
>520999_KIT_12_FOR GTACTGCATGCGCTTGACATCAGTTTG >520999_KIT_12_REV CAATGGTGCAGGCTCCAAGTAGATTCAC
>520999_KIT_13_FOR GTCTGAACTCAAAGTCCTGAGTTACCTTGG >520999_KIT_13_REV GGCTTCCAAGCAGTTTATAATCTAGCATTGCC
>520999_KIT_14_FOR GCTGAATATTAATGGCCATGACCACCCTTG >520999_KIT_14_REV GGATCACCATAGCAACAATATTCTGTAATGACC
>520999_KIT_15_FOR GGCTCACCTTCTTTCTAACCTTTTCTTATGTGC >520999_KIT_15_REV GCAGCTTCTGCATGATCTTCCTGCTTTG
>520999_KIT_16_FOR GGGCTTTTGAATTTTTTGAGAAGAAAACGTGATTC >520999_KIT_16_REV CCTTATGACCCCATGAACTGCCTGTC
>520999_KIT_17_FOR GGGGAATTTAAATGGTTTTCTTTTCTCCTCCAACC >520999_KIT_17_REV GGAATCATTCTTGATGTCTCTGGCTAGACC
>520999_KIT_18_FOR GCTCCTTACTCATGGTCGGATCACAAAG >520999_KIT_18_REV GGCACAGGAAACAATTTTTATCGAAAGTTGAAAC
>520999_KIT_19_FOR CTCCACATTTCAGCAACAGCAGCATC >520999_KIT_19_REV CCCATAGGACCAGACGTCACTTTCAAACG
>520999_KIT_20_FOR CTGTGAAGTGGATGGCACCTGAAAG >520999_KIT_20_REV CCAATGAAACTTCAAGAAGATGCTCTGAGTC
>520999_TPMT_01_FOR 15 GGGCAATTCCTCAAAAACATGTCAGTGTG >520999_TPMT_01_REV 16 GCAATATACGTTGTCTTGAGAAGGTTGATGC
>520999_TPMT_02_FOR 17 GCTTTTCAAAAAGACAGTCAATTCCCCAAC >520999_TPMT_02_REV 18 GGGAGAATCCCTGATGTCATTCTTCATAG
>520999_TPMT_03_FOR 19 GGGATCAAGAAACTAGGCAACTGGTAAAAG >520999_TPMT_03_REV 20 CCTTCTTGTGTTCTTTGTAGCTATGCAGATAC
>520999_TPMT_04_FOR 21 GTTGGATCATAAGAAAGAACACACAGGAGATAC >520999_TPMT_04_REV 22 CAGCGAAAGTAACTTCTGGCTTCCTTCC
>520999_TPMT_05_FOR 23 GGGAAGTCTAAGCTGATTTTCTAGAACCCAG >520999_TPMT_05_REV 24 GGGCAAATTTGACATGATTTGGGATAGAGG
>520999_TPMT_06_FOR 25 GGGTTACTTACCATTTGCGATCACCTGG >520999_TPMT_06_REV 26 GATTGTTGAAGTACCAGCATGCACCATG
>520999_TPMT_07_FOR 27 GGCTGAGAAAAACTTTTGTGGGGATATGGATAC >520999_TPMT_07_REV 28 GTGTAGTTGGTGTGGAAATCAGTGAACTTGG
>520999_TPMT_08_FOR 29 GGGTTCTTCTGAGTAAGAAAGATTCTGCTCTG >520999_TPMT_08_REV 30 GAGGGTGCTTACTCTAATATAACCCTCTATTTAGTC
>520999_EGFR_01_FOR TTTCCAGCATGGTGAGGGCTGAGGTGA >520999_EGFR_01_REV GCACCGGAGCCCAGCACTTTGATC
>520999_EGFR_02_FOR CCAAGCTCTCTTGAGGATCTTGAAGGAAAC >520999_EGFR_02_REV GGAAATATACAGCTTGCAAGGACTCTGGG
>520999_EGFR_03_FOR GCATGTGGCACCATCTCACAATTGCCA >520999_EGFR_03_REV CCACACAGCAAAGCAGAAACTCACATC
>520999_EGFR_04_FOR GAGAAAGTTAAAATTCCCGTCGCTATCAAGG >520999_EGFR_04_REV GAGAAAAGGTGGGCCTGAGGTTCAGAG
>520999_EGFR_05_FOR CCTCCTTCTGGCCACCATGCGAAGC >520999_EGFR_05_REV CGAAGGGCATGAGCTGCGTGATGAG
>520999_EGFR_06_FOR GACTGCTGGGCATCTGCCTCACCTC >520999_EGFR_06_REV CCGTATCTCCCTTCCCTGATTACCTTTGC
>520999_EGFR_07_FOR CTGGACTATGTCCGGGAACACAAAGAC >520999_EGFR_07_REV CATGGCAAACTCTTGCTATCCCAGGAG
>520999_EGFR_08_FOR GATGCAGAGCTTCTTCCCATGATGATCTG >520999_EGFR_08_REV CAGTTTGGCCAGCCCAAAATCTGTGATC
>520999_EGFR_09_FOR GCAGCCAGGAACGTACTGGTGAAAAC >520999_EGFR_09_REV CAGCTAGTGGGAAGGCAGCCTGGTC
>520999_MET_01_FOR CACAATCATACTGCTGACATACAGTCGGAG >520999_MET_01_REV CGGGAAATAAGAAGAATTTATGGTATTGCCTACAAAG
>520999_MET_02_FOR GAGCCAAAGTCCTTTCATCTGTAAAGGACC >520999_MET_02_REV GGTAAAACATCAATGTAGGACTGGTCCGTC
>520999_MET_03_FOR CAGCTTGCTAGACAAATAGGAGCCAGC >520999_MET_03_REV TCCGTAAAAATGCTGGAGACATCTCACATTG
>520999_MET_04_FOR CAATGGATCGATCTGCCATGTGTGCATTC >520999_MET_04_REV CCTCACAGTTTATAAGTGGGGAACTGATGTG
>520999_MET_05_FOR GCATTTTTACGGACCCAATCATGAGCACTG >520999_MET_05_REV GGGCAACTATTTTGGATAAACACCATTTACAAAG
>520999_MET_06_FOR GGGTAAGTCACATCAGTTCCCCACTTATAAACTG >520999_MET_06_REV CGGGTAGGTGTAAATGAAGATTCAATTCCTC
>520999_MET_07_FOR GCCAGGTGTTTATCCAAAATAGTTGCAG >520999_MET_07_REV GGCTGAAATGTCACGAACATGCAAATCTG
>520999_MET_08_FOR ACTGTGCCTCTGACCTGTAATCAGTGC >520999_MET_08_REV CTAACTGAATTCAGGTTTTTCCCAACACCTG
>520999_MET_09_FOR CTATTTTGCTTTGCCAGTGGTGGGAGC >520999_MET_09_REV GGTTAGAGGCAAAGATGCAGAGCTCTG
>520999_MET_10_FOR CGGGAACACTGGAGCATAATTGAGGAATCTC >520999_MET_10_REV GGCGAAAAGTCAGCATTTAGCCATGATAG
>520999_MET_11_FOR GGGACCCAAAGTGCTACAACCTGTGTAG >520999_MET_11_REV CTGGTTGAACTATTACTTTTCCAAGGACGG
>520999_MET_12_FOR CCATGAGTTCTGGGCACTGGGTCAAAG >520999_MET_12_REV CTTACACTTCGGGCACTTACAAGCCTATC
>520999_MET_13_FOR GCAGTGAATTAGTTCGCTACGATGCAAGAG >520999_MET_13_REV CCTTCTGGAAAAGTAGCTCGGTAGTCTACAG
>520999_MET_14_FOR GTAAGTGCCCGAAGTGTAAGCCCAACTAC >520999_MET_14_REV GCAATGTCACAACCCACTGAGGTATATGTATAGG
>520999_MET_15_FOR GGGTGGTTTACCATTTCATTGCTCTTCCTATC >520999_MET_15_REV GGCTTTCATGATGATTCCCTCGGTCAG
>520999_MET_16_FOR CCACCACTGGATTTCTCAGGAATCACTGAC >520999_MET_16_REV CTCCATGTTTCATGTATGGTAGGACCACC
>520999_MET_17_FOR CCTGGGAATCTGCCTGCGAAGTGAAG >520999_MET_17_REV CCTATTTTGAAGGGATGGCTGGCTTACAGC
>520999_BRAF_01_FOR CTTTCTAGTAACTCAGCAGCATCTCAGGG >520999_BRAF_01_REV GGTGATTTTGGTCTAGCTACAGTGAAATCTCG
>520999_BRAF_02_FOR GGATCCAGACAACTGTTCAAACTGATGG >520999_BRAF_02_REV GCCTAAACTCTTCATAATGCTTGCTCTGATAGG
>520999_RET_01_FOR CCTGGCCTTCTCCTTTACCCCTCCTTC >520999_RET_01_REV CCCACACTTACACATCACTTTGCGTGG
>520999_RET_02_FOR GATTCCAGTTAAATGGATGGCAATTGAATCCC >520999_RET_02_REV CGTGGCCCCACTACATGTATAAGGG
>520999_BRCA2_24_FOR CTGAAGTGGAACCAAATGATACTGATCC >520999_BRCA2_24_REV AAGGGTTAGTTGAGACCATTCACAG
>520999_BRCA2_25_FOR GTAGCAAATCAGAAGCCCTTTGAGAG >520999_BRCA2_25_REV GGTCACATGAAGAAATATGCAATAGGGG
>520999_BRCA2_26_FOR GGTCTCAACTAACCCTTTCAGGTC >520999_BRCA2_26_REV CTTTCTTTCTTTTGTTCTCTGTGTCTAATAGGTC
>520999_BRCA2_27_FOR CCCTATTGCATATTTCTTCATGTGACC >520999_BRCA2_27_REV CCACTGTTTCCTCATTTAATGGCTTCT
>520999_BRCA2_28_FOR GAGAATTCTTTGCCACGTATTTCTAGCC >520999_BRCA2_28_REV TGGAGAAGTTCCAGATATTGCCTGC
>520999_BRCA2_29_FOR GAGAGATGAAGAGCAGCATCTTGAAT >520999_BRCA2_29_REV CTTGCATTGAAAGTCTCTTTAGGTGATTCTC
>520999_BRCA2_30_FOR TGGAACTTCTCCAGTGGCTTCTTC >520999_BRCA2_30_REV GTCCACTTTCAGAGGCTTCAGTTTC
>520999_BRCA2_31_FOR GAGACTTTCAATGCAAGTTTTTCAGGTC >520999_BRCA2_31_REV GGCTGGCCAGCTTCCATTATCAATTAA
>520999_BRCA2_32_FOR CATACTGTTTGCTCACAGAAGGAGG >520999_BRCA2_32_REV AACTTATTTGTTTTCTTTTTCAAAGTGGATATTAAAC
>520999_BRCA2_33_FOR AAGCTGGCCAGCCACCACCACAC >520999_BRCA2_33_REV CAGTTAATTAGTTCTGATTTTTGGTCTTTCGG
>520999_BRCA2_34_FOR GCTTTGAAGAATGCAGGTTTAATATCCAC >520999_BRCA2_34_REV GCATTTGCTTCAAACTGGGCTGAACAG
>520999_BRCA2_35_FOR GAAACATCTTATAAAGGAAAAAAAATACCGAAAGACC >520999_BRCA2_35_REV CACAGAAGGAATCGTCATCTATAAAACTATATGTAC
>520999_BRCA2_36_FOR GTGATTGATGGTACTTTAATTTTGTCACTTTGTG >520999_BRCA2_36_REV CTAGAACATTTCCTCAGAATTGTCCC
>520999_BRCA2_37_FOR GAATGATTCTGAAGAACCAACTTTGTCC >520999_BRCA2_37_REV GCTTCTTTATAATCAAGATCCTGAGAG
>520999_BRCA2_38_FOR CTGAGGAAATGTTCTAGAAATGAAACATGTTC >520999_BRCA2_38_REV GCTTTTTGGATCATTTTCACACTGTCC
>520999_BRCA2_39_FOR CCCAGAAGCTGATTCTCTGTCATG >520999_BRCA2_39_REV GGATTGAAAGTCAGTATCACTGTATTCC
>520999_BRCA2_40_FOR GCAGCATGTCACCCAGTACAAC >520999_BRCA2_40_REV GACTAGGTTTGACAGAACATCCTTGG
>520999_BRCA2_41_FOR GTCTTTTATATGATCATGAAAATGCCAGCACTC >520999_BRCA2_41_REV CATAATTGTTACCTTTGAGCTTGTCTGAC
>520999_BRCA2_42_FOR CCTAGTCATGATTTCTAGAGGCAAAG >520999_BRCA2_42_REV GCACATACATCTTGATTCTTTTCCATGGG
>520999_BRCA2_43_FOR CAAAATGTCAGACAAGCTCAAAGGTAAC >520999_BRCA2_43_REV TTCAGGTGGCAACAGCTCAACG
>520999_BRCA2_44_FOR CCCATGGAAAAGAATCAAGATGTATGTGC >520999_BRCA2_44_REV CTCTTAGATTTGTGTTTTGGTTGAATTGTACC
>520999_BRCA2_45_FOR CCTGAAAAATACATGAGAGTAGCATCACC >520999_BRCA2_45_REV GAGAAAAGTTCTTCAGAGTCTGGATTGACAG
>520999_BRCA2_46_FOR GTACAATTCAACCAAAACACAAATCTAAGAGTAATCC >520999_BRCA2_46_REV GCAAGATTATTCCTTTCATTAGCTACTTGG
>520999_BRCA2_47_FOR CTCTGAAGAACTTTTCTCAGACAATGAG >520999_BRCA2_47_REV CATGGTAGAGTTCTTGAAAATGGGTTCG
>520999_BRCA2_48_FOR CTAAGGAACTTCATGAAACAGACTTGAC >520999_BRCA2_48_REV GTTCTCCTCTGCAAGAACATAAACCAAATC
>520999_BRCA2_49_FOR TATGGAGACACAGGTGATAAACAAGCAACC >520999_BRCA2_49_REV CTGGTATTTTATCTATATTCAAGGAGATGTCCG
>520999_BRCA2_50_FOR GCAGCATATAAAAATGACTCTAGGTCAAG >520999_BRCA2_50_REV ATTTCCTTATTTGAAGCTGTTCTGAAGC
>520999_BRCA2_51_FOR CAAATGGGCAGGACTCTTAGGTCC >520999_BRCA2_51_REV CAACACAAGCTAAACTAGTAGGATATTGTTCTTC
>520999_BRCA2_52_FOR CAAGCTCTCTGAACATAACATTAAGAAGAGCA >520999_BRCA2_52_REV CAACTACACTACTCTGTAAATGTGCAGATACAG
>520999_BRCA2_53_FOR CAAAAGAAACTGAGCAAGCCTCAG >520999_BRCA2_53_REV CTGTAATTTCTGCCTTTTGGCTAGGTG
>520999_KRAS_01_FOR 31 GGGGACATAACAGTTATGATTTTGCAGAAAACAG >520999_KRAS_01_REV 32 GCCTTCTAGAACAGTAGACACAAAACAGGC
>520999_KRAS_02_FOR 33 GGCTTACCTGTCTTGTCTTTGCTGATGTTTC >520999_KRAS_02_REV 34 GTTAAGGACTCTGAAGATGTACCTATGGTCC
>520999_KRAS_03_FOR 35 GTTTTGTGTCTACTGTTCTAGAAGGCAAATCAC >520999_KRAS_03_REV 36 GGGACAAAAGTTGTGGACAGGTTTTGAAAG
>520999_KRAS_04_FOR 37 CCAGAGGACTATAATTACTCCTTAATGTCAGC >520999_KRAS_04_REV 38 GAGTACAGTGCAATGAGGGACCAGTAC
>520999_KRAS_05_FOR 39 GGCAAATACACAAAGAAAGCCCTCCC >520999_KRAS_05_REV 40 GGGTGCACTGTAATAATCCAGACTGTG
>520999_KRAS_06_FOR 41 CCTTTATCTGTATCAAAGAATGGTCCTGCAC >520999_KRAS_06_REV 42 GACTGAATATAAACTTGTGGTAGTTGGAGCTGG
>520999_KRAS_07_FOR 43 CTGAATTAGCTGTATCGTCAAGGCACTC >520999_KRAS_07_REV 44 GGGAAGGTACTGGTGGAGTATTTGATAGTG
>520999_BRCA2_01_FOR ATTTTCCAGCGCTTCTGAGTTTTACC >520999_BRCA2_01_REV GCCTCTCTTTGGATCCAATAGGCA
>520999_BRCA2_02_FOR ACTTATTTACCAAGCATTGGAGGAATATCG >520999_BRCA2_02_REV GCATTTTTTAGAAAACACTTTCTCGGTGT
>520999_BRCA2_03_FOR TTTTTTCCTTATGATCTTTAACTGTTCTGGGTC >520999_BRCA2_03_REV CAGGTTCAGAATTATAGGGTGGAGC
>520999_BRCA2_04_FOR GGACCAATAAGTCTTAATTGGTTTGAAGAAC >520999_BRCA2_04_REV GTTGAAGCCAGCTGATTATAAGATGGT
>520999_BRCA2_05_FOR AACAACAATTACGAACCAAACCTATTTAAAACTC >520999_BRCA2_05_REV TGCATTACTTACCTAAGTCTAATTTGAATTTATCT
>520999_BRCA2_06_FOR AAAGAGCAAGGGCTGACTCTGC >520999_BRCA2_06_REV GAGCTAAGATTTTAACACAGGTTTGCC
>520999_BRCA2_07_FOR AGAATGCAAATTTATAATCCAGAGTATATACATTCTCACTGA >520999_BRCA2_07_REV TAATAGCTTCATCATACCTTTCACTAAGAC
>520999_BRCA2_08_FOR GATCAAGCAGATGATGTTTCCTGTCCAC >520999_BRCA2_08_REV TGTAAGATCTTCTACCAGGCTCTTAGCC
>520999_BRCA2_09_FOR GCCAGTTTTTTAAAATAACCTAAGGGATTTGCTTTG >520999_BRCA2_09_REV ACATTTCTAGTATTCTAAGAATAAAAAGCATTG
>520999_BRCA2_10_FOR CACATGTAACACCACAAAGAGATAAGTCAGGT >520999_BRCA2_10_REV ACCAGGTAGAATATTTACCTTCACAAACTTTGGTGT
>520999_BRCA2_11_FOR CCCCAGTGGTATGTGGGAGTT >520999_BRCA2_11_REV GCTAGGTACAGATTTGTAAATCTCAGGG
>520999_BRCA2_12_FOR TCAGTAAACGTTAAGTGAAATAAAGAGTGAATG >520999_BRCA2_12_REV AAGACATATCAGGATCCACCTCAGCTCCTAGAC
>520999_BRCA2_13_FOR CTATTTTCTTTCCTCCCAGGGTCG >520999_BRCA2_13_REV CCTATGAGCACAGTAGAACTAAGGG
>520999_BRCA2_14_FOR GAGCTGAGGTGGATCCTGATATGT >520999_BRCA2_14_REV GAGATGACAATTATCAACCTCATCTGCTC
>520999_BRCA2_15_FOR TCAAATGTGTCATGTAATCAAATAGTAGATGTGC >520999_BRCA2_15_REV GTCATATTTACTTACAGCAGTAGTATCATGAGG
>520999_BRCA2_16_FOR TCTTACAGTCAGAAATGAAGAAGCATCTG >520999_BRCA2_16_REV GAGACTTTCTCAAAGGCTTAGATAAATTACAGATTAGG
>520999_BRCA2_17_FOR GGGACTACTACTATATGTGCATTGAGAGT >520999_BRCA2_17_REV GTGTTTTCACTGTCTGTCACAGAAGCGA
>520999_BRCA2_18_FOR GCTATTTTTCCAATCATGATGAAAGTCTGAAG >520999_BRCA2_18_REV AACCTGTAGTTCAACTAAACAGAGGAC
>520999_BRCA2_19_FOR ACAAATCAAAGAGAAGCTGCAAGTC >520999_BRCA2_19_REV AACCGAGATCACGGGTGACAG
>520999_BRCA2_20_FOR CATAAACTGTTTCTATGAGAAAGGTTGTGAG >520999_BRCA2_20_REV GACTTTCCAATGTGGTCTTTGCAGC
>520999_BRCA2_21_FOR CAGGATTTGGAAAAACATCAGGGAATTC >520999_BRCA2_21_REV CTATCTTCTTCAGAGGTATCTACAACTG
>520999_BRCA2_22_FOR GTCAATGCCAAATGTCCTAGAAGATGAAG >520999_BRCA2_22_REV CTTGGTTTTTAGATTTTTCACATTCATCAGCG
>520999_BRCA2_23_FOR CTACAAAAAGTAAGAACTAGCAAGACTAGG >520999_BRCA2_23_REV CTTCCACTCTCAAAGGGCTTCTG
>520999_BRCA2_54_FOR CCTCAGATGTTATTTTCCAAGCAGG >520999_BRCA2_54_REV GTACTCTTCTGCAATATGTAGCTTGG
>520999_BRCA2_55_FOR ACTTTCTACTATATTAGAAGAATCAGGAAGTCAG >520999_BRCA2_55_REV GACATGAAGATCAGCATCTCTGCATTCC
>520999_BRCA2_56_FOR CCTGAAAACCAGATGACTATCTTAAAGACC >520999_BRCA2_56_REV CATTTTTCAACAGGCCAGCAAACTTCCG
>520999_BRCA2_57_FOR CATCGATTGGTCAGGTAGACAGC >520999_BRCA2_57_REV GAAACATTCAGTTTTGTGCCATGAGCAG
>520999_BRCA2_58_FOR CAGATGAAAATGAAGTGGGGTTTAGG >520999_BRCA2_58_REV GGATGTACCTCTGCAGAAGTTTCCTCAC
>520999_BRCA2_59_FOR CTGAATGTTTCTACTGAAGCTCTGC >520999_BRCA2_59_REV CACTTACAGTTTTATCATTATGATTTTCTATCTTAAACATTGAAAC
>520999_BRCA2_60_FOR GAAACTTCTGCAGAGGTACATCC >520999_BRCA2_60_REV CAGTAGTCATTTCAATATTATTTTGTAATATCAGTTGGC
>520999_BRCA2_61_FOR CCAATAAGTTTATCTTCAAGTAAATGTCATGATTCTG >520999_BRCA2_61_REV CAGTAATTTCTTCAACAAAAGTGCCAGTAGTC
>520999_BRCA2_62_FOR GTTTCAATGTTTAAGATAGAAAATCATAATGATAAAACTGTAAGTG >520999_BRCA2_62_REV CTAAGTTATGAGAATTTCTACTGGCAGCAG
>520999_BRCA2_63_FOR GAAATGACTACTGGCACTTTTGTTGAAG >520999_BRCA2_63_REV GCAAGTCCGTTTCATCTTTATGAATACAAAC
>520999_BRCA2_64_FOR GTAGAAATTCTCATAACTTAGAATTTGATGGCAGTG >520999_BRCA2_64_REV CTTCTTTAATCTGAGTGTTTCCCTCC
>520999_BRCA2_65_FOR GCTATTTACTGATCAGCACAACATATGTC >520999_BRCA2_65_REV CCATGACATGCTTCTTGAGCTTTCG
>520999_BRCA2_66_FOR GGAAACACTCAGATTAAAGAAGATTTGTCAG >520999_BRCA2_66_REV GCAGTCTGAAAAAATGTATCAGAAGTCTC
>520999_BRCA2_67_FOR GAACAGTTAACTGCTACTAAAACGGAGC >520999_BRCA2_67_REV GGAAAAGTTATGCAATTCTTCTGGTTTCTGATC
>520999_BRCA2_68_FOR GGGAAAAATATTAGTGTCGCCAAAGAGTC >520999_BRCA2_68_REV CTATGTCTGTTTCCTCATAACTTAGAATGTCC
>520999_BRCA2_69_FOR GATCAGAAACCAGAAGAATTGCATAACTTTTCC >520999_BRCA2_69_REV GATTTCCAGTACCAACTGGGACAC
>520999_BRCA2_70_FOR GGACATTCTAAGTTATGAGGAAACAGACATAG >520999_BRCA2_70_REV TTCCCGCTAGCTGTATGAAAACC
>520999_BRCA2_71_FOR CAGGGACAACCCGAACGTGATG >520999_BRCA2_71_REV CTGGTGATTTCACTAGTACCTTGCTC
>520999_BRCA2_72_FOR GTTAAAATTGCAAAGGAATCTTTGGACAAAGTG >520999_BRCA2_72_REV CTGTGATCTCAATGGTCTCACATGC
>520999_BRCA2_73_FOR CCTAAAGTACAGAGAGGCCTG >520999_BRCA2_73_REV CTTAGGTGGCACCACAGTCTC
>520999_BRCA2_74_FOR CCAAAGTGTAAAGAAATGCAGAATTCTCTC >520999_BRCA2_74_REV GACTTTTTGCTGTTTCTTTTTCTACATTTTCATGTAC
>520999_BRCA2_75_FOR GTGCCACCTAAGCTCTTAAGTG >520999_BRCA2_75_REV GACTGAATAAGGGGACTGATTTGTGTAAC
>520999_BRCA2_76_FOR GAAAGTTAAAGTACATGAAAATGTAGAAAAAGAAACAGC >520999_BRCA2_76_REV CTTCAAGTAATGAAGTCTGACTCACAGAAG
>520999_BRCA2_77_FOR CCTTATTCAGTCATTGAAAATTCAGCCTTAGC >520999_BRCA2_77_REV CTGCAGTATTTATTCTTTCTGGTTGACCATC
>520999_BRCA2_78_FOR CTGTGAGTCAGACTTCATTACTTGAAGC >520999_BRCA2_78_REV GAGATGATTTTTGTCATTTTCAGCTATAGTACTG
>520999_BRCA2_79_FOR CCAGAAAGAATAAATACTGCAGATTATGTAGG >520999_BRCA2_79_REV CCTCATCAGAATGGTAGGAATAGC
>520999_BRCA2_80_FOR CCGAAAAACAAGATACTTATTTAAGTAACAGTAGC >520999_BRCA2_80_REV GATCTTCAACATTCTTCAATACTGGCTC
>520999_BRCA2_81_FOR CTGATGAGGTATATAATGATTCAGGATATCTCTC >520999_BRCA2_81_REV CAGTTTGTGGGTATGCATTTGCATC
>520999_BRCA2_82_FOR GAGCCAGTATTGAAGAATGTTGAAGATC >520999_BRCA2_82_REV GGTGAAGAGCTAGTCACAAGTTCC
>520999_BRCA2_83_FOR GATGCAAATGCATACCCACAAACTG >520999_BRCA2_83_REV CGATTTTACCACTGGCTATCCTAAATGCAGG
>520999_BRCA2_84_FOR GGAACTTGTGACTAGCTCTTCACCCTGC >520999_BRCA2_84_REV GTCTTTCACTTTTTTAATTGTTTCATGTGAAACAC
>520999_BRCA2_85_FOR CCTGCATTTAGGATAGCCAGTGG >520999_BRCA2_85_REV CAACCTGCCATAATTTTCGTTTGGC
>520999_BRCA2_86_FOR CAGTTTCAGTAAAGTAATTAAGGAAAACAACGAG >520999_BRCA2_86_REV CCTTATGTGAATGCGTGCTACATTCATC
>520999_BRCA2_87_FOR CGAGGCATTGGATGATTCAGAGG >520999_BRCA2_87_REV GGTGATATTTTAGAAACTTTCTCCAATCCAGAC
>520999_BRCA2_88_FOR GGTTTTTGCTGACATTCAGAGTGAAG >520999_BRCA2_88_REV GATGAGACTGACTTATGAAGCTTCCC
>520999_BRCA2_89_FOR CCTTGTGATGTTAGTTTGGAAACTTCAG >520999_BRCA2_89_REV GCGTTTTGTAATGAAGCATCTGATACC
>520999_BRCA2_90_FOR GTGGGATTTTTAGCACAGCAAGTGG >520999_BRCA2_90_REV CTCTTGTGAGCTGGTCTGAATGTTC
>520999_BRCA2_91_FOR CTGAAATAGAAGATAGTACCAAGCAAGTC >520999_BRCA2_91_REV CCAGAGAAAGCAGATGAATTTACCAC
>520999_BRCA2_92_FOR GAAAATACTGCTATACGTACTCCAGAAC >520999_BRCA2_92_REV CTCTAACACTCCCTTAACTTTGTGTAAGG
>520999_BRCA2_93_FOR CAGCAAGTGGAAAGCAAGTTTCC >520999_BRCA2_93_REV GGGTTTCTCTTATCAACACGAGG
>520999_BRCA2_94_FOR CTTCACTATTCACCTACGTCTAGACA >520999_BRCA2_94_REV GTGATTATTTTCTGAAGAACCACCTTCAAC
>520999_BRCA2_95_FOR GAGCACTGTGTAAACTCAGAAATGG >520999_BRCA2_95_REV CCTAATACCAACTGTTGTTTGTCTTGTTG
>520999_BRCA2_96_FOR GAAGGTGGTTCTTCAGAAAATAATCACTC >520999_BRCA2_96_REV CGTTTTTAGGTGAAGCCTGTTC
>520999_BRCA2_97_FOR GAACCAAAGTGTCACTTGTTGAGAAC >520999_BRCA2_97_REV GTAGTTTTCTGAATCTTTGGAGTAAGTAGAAC
>520999_BRCA2_98_FOR CTGAAACTTTTTCTGATGTTCCTGTG >520999_BRCA2_98_REV GAATGTGTGGCATGACTTGGCAG
>520999_BRCA2_99_FOR GCTTTTATGGAAGATGATGAACTGAC >520999_BRCA2_99_REV AAATGAACACTTACCCACTAAGATAAGG
>520999_BRCA2_100_FOR CATGTCCCGAAAATGAGGAAATGG >520999_BRCA2_100_REV CACTTTAAAAATAGTGATTGGCAACACGAAAGG
>520999_BRCA2_101_FOR GGTCTATAGACTTTTGAGAAATAAAACTGATATTATTTGCC >520999_BRCA2_101_REV TGGAGTGCTTTTTGAAGCCTTTAAG
>520999_BRCA2_102_FOR CCTCAATCAAAAGAAACTTATTAAATGAATTTGACAGG >520999_BRCA2_102_REV CAGAATATTATATACCATACCTATAGAGGGAGAACAG
>520999_BRCA2_103_FOR ATTGTCTCAAATTTTTTGTGTATTTACAGTAACA >520999_BRCA2_103_REV GGTAATCGGCTCTAAAGAAACATGATGC
>520999_BRCA2_104_FOR CTAATATGTAATATAAAATAATTGTTTCCTAGGCAC >520999_BRCA2_104_REV AACGAGACTTTTCTCATACTGTATTAGAATTTAG
>520999_BRCA2_105_FOR ATGTAGCAAATGAGGGTCTGCAACAA >520999_BRCA2_105_REV GACAGAAATTCTTGACCAGGTGCG
>520999_BRCA2_106_FOR ACTAAGGAACGTCAAGAGATACAGAATCC >520999_BRCA2_106_REV GAAACTTGATAAAATGGATGTCCTGAAACTGC
>520999_BRCA2_107_FOR CTAAATCTCATTTGTATGAACATCTGACTTTGG >520999_BRCA2_107_REV GGAACAAAGACTTTGGTTGGTCTGCCTGTAG
>520999_BRCA2_108_FOR GTTTCTGCTACAAGAAATGAAAAAATGAGACAC >520999_BRCA2_108_REV CAGAGCCATGTCCATCAATGTTTTGC
>520999_BRCA2_109_FOR TCACAGAGTTGAACAGTGTGTTAGGAATAT >520999_BRCA2_109_REV CAGCTACTGCTTGATTGGAGTTG
>520999_BRCA2_110_FOR GCTCTGATGATAGTAAAAATAAGATTAATGACAATGAG >520999_BRCA2_110_REV GACATTATTTAACAACGGAAATATCTAACTGAAAGGC
>520999_BRCA2_111_FOR GGTTGTGCTTTTTAAATTTCAATTTTATTTTTGCTAAG >520999_BRCA2_111_REV CAGACTGCCTGGCTGTGGAAAGACG
>520999_BRCA2_112_FOR GATTTAATTACAAGTCTTCAGAATGCCAGAG >520999_BRCA2_112_REV GATTCGAGGCAGAGTGGATGTTTTT
>520999_BRCA2_113_FOR AACAAAGGCAACGCGTCTTTCC >520999_BRCA2_113_REV CCATCAGTATTGTAGACAAACACATACCTG
>520999_BRCA2_114_FOR GCCAAGTTCCCTCTGCGTGTT >520999_BRCA2_114_REV TGTGTTCATTCTTTAAACAAAGCCATTTGT
>520999_BRCA2_115_FOR TCAGTTTTGGTTTGTTATAATTGTTTTTATTGTGT >520999_BRCA2_115_REV AGACTCTGCATTTTTGCTGTTAATTTTTATGCAA
>520999_BRCA2_116_FOR TTTATTTTGTGTAGCTGTATACGTATGGCG >520999_BRCA2_116_REV CCATCCACCATCAGCCAACTGTATT
>520999_BRCA2_117_FOR AAGATTATTTTGGTAAGGAAAGTTTATGGACTGG >520999_BRCA2_117_REV GGGATGAGGGAATACATAAAAGTTAACAC
>520999_BRCA2_118_FOR GTTGTAGTTGTTGAATTCAGTATCATCCTATGTGG >520999_BRCA2_118_REV GCTGCCAGTTTCCATATGATCCATCTATAGTG
>520999_BRCA2_119_FOR TTATTTGTTCAGGGCTCTGTGTGACACTCC >520999_BRCA2_119_REV GGGCTTAGGCATCTATTAGCAAATTCC
>520999_BRCA2_120_FOR TATAGATGGATCATATGGAAACTGGCAGC >520999_BRCA2_120_REV CCGTATATGATTACGTAATGTAATGCTTTAAACT
>520999_BRCA2_121_FOR TGCTAATAGATGCCTAAGCCCAGA >520999_BRCA2_121_REV CTGGCTTGTGCAACATTTTGACATGG
>520999_BRCA2_122_FOR AGTTTTTATTCTCAGTTATTCAGTGACTTGTT >520999_BRCA2_122_REV CATTATCTTTTTTATAGCCGATCTTCTGCTTC
>520999_BRCA2_123_FOR GCATTTTTGTTTTCACTTTTAGATATGATACGG >520999_BRCA2_123_REV GCTAGAAGTTTCAGATATATTTGCGCTC
>520999_BRCA2_124_FOR GGATGACACAGCTGCAAAAACAC >520999_BRCA2_124_REV CAGCATACCACCCATCTGTAAGTTC
>520999_BRCA2_125_FOR GCAATAAAACTAGTAGTGCAGATACCCA >520999_BRCA2_125_REV CTGCTCCATGAAGAATAATCTTCTGACC
>520999_BRCA2_126_FOR GCCCAGTTAGATCCTCCCCTCT >520999_BRCA2_126_REV ACCTTTAACATAAGAGATTCTGGGGC
>520999_BRCA2_127_FOR GGGCTCTCCTGATGCCTGTAC >520999_BRCA2_127_REV AAATTGAGCATCCTTAGTAAGCATTTAAAATTTAA
>520999_BRCA2_128_FOR GCAGTTCTAGAAGAATGAAAACTCTTATGATATCTG >520999_BRCA2_128_REV GGAAAGAATCCAAGTTTGGTATACCAGCGAG
>520999_BRCA2_129_FOR TATTAATTTGTCCAGATTTCTGCTAACAGTACTC >520999_BRCA2_129_REV CATCATACCTGTATAGGGTATGCTC
>520999_BRCA2_130_FOR CCTTATCATCGCTTTTCAGTGATGGAG >520999_BRCA2_130_REV GAGACCGAAACTCCATCTCAAACAAAC
>520999_BRCA2_131_FOR GAATGTTATATATGTGACTTTTTTGGTGTGTGTAACAC >520999_BRCA2_131_REV CAAATTCCTCCTGAATTTTAGTGAATAAGGCTTC
>520999_BRCA2_132_FOR CAATGAAAGAGAGGAAGAAAAGGAAGCAGC >520999_BRCA2_132_REV CTTTGTTCTCATATTAGAAATAACAATGTGTACC
>520999_BRCA2_133_FOR CCTTCTTTGGGTGTTTTATGCTTGG >520999_BRCA2_133_REV GCACGAACTTGCTGTCTTGTTAG
>520999_BRCA2_134_FOR CTTAGAAAACACAACAAAACCATATTTACCATC >520999_BRCA2_134_REV CATCAAGCCTCATTATATGTCCTCTTACTC
>520999_BRCA2_135_FOR GTTCGTGCTTTGCAAGATGGTG >520999_BRCA2_135_REV GGCCAGAGAGTCTAAAACAGCTTC
>520999_BRCA2_136_FOR CTAGTTACAATAGATGGAACTTTTTTGTTCTGATTGC >520999_BRCA2_136_REV GAGCTTGTTTCTTATCATTCAACATTTGCC
>520999_BRCA2_137_FOR GTCACAGGGTTATTTCAGTGAAGAGC >520999_BRCA2_137_REV GTGACATCCCTTGATAAACCTTGTTCC
>520999_BRCA2_138_FOR AAGCTCAGATCCAGTTGGAAATTAGGAAG >520999_BRCA2_138_REV CTGATAAAAACAAAGCATTTACATACTTACCTG
>520999_BRCA2_139_FOR GTTTATCAAGGGATGTCACAACCGT >520999_BRCA2_139_REV TCTGGATTTATAATCATTTTGTTAGTAAGGTCATT
>520999_BRCA2_140_FOR AAAAGAGGATCTGTATTTATTTTGAAACAAACAT >520999_BRCA2_140_REV GCAAGATGATAAATTCTGTATCTCTTTCCTTCTG
>520999_BRCA2_141_FOR GGCGTCCATCATCAGATTTATATTCTCTG >520999_BRCA2_141_REV TGTACCGGTAGTTGTTGATACTGAG
>520999_BRCA2_142_FOR AAAGTAAATCTGAAAGAGCTAACATACAGTTAGC >520999_BRCA2_142_REV TGAAACCTACAGAAAACAAAACAAAAATTCAAC
>520999_BRCA2_143_FOR TCAGTTTTGATAAGTGCTTGTTAGTTTATGG >520999_BRCA2_143_REV CAAGATGGCTGAAAGTCTGGATCTAAA
>520999_BRCA2_144_FOR AAATTTTATTTCAGATTTACCAGCCACGG >520999_BRCA2_144_REV GTGCATTACCTGTTTTTTTCACAACAG
>520999_BRCA2_145_FOR CCATCTTGTTCTGAGGTGGACCTAA >520999_BRCA2_145_REV GCCAACTGGTAGCTCCAACTAATCA
>520999_BRCA2_146_FOR TAGGCATATTAGAGTTTCCTTTCTTGCATC >520999_BRCA2_146_REV AGGTCTATCCAAAACTTTATTGCCAGT
>520999_BRCA2_147_FOR ATTCTAGGACTTGCCCCTTTCGTC >520999_BRCA2_147_REV ATTTGGATTCTGGTCGCCACTGGA
>520999_BRCA2_148_FOR GACCTTAATGAGGACATTATTAAGCCTCA >520999_BRCA2_148_REV TGTCTCTTGAAAGTGGCCCTCTTT
>520999_BRCA2_149_FOR TCAGGCCTTCTTACTTTATTTGCTGG >520999_BRCA2_149_REV GAAAAATACCAAAATGTGTGGTGATGCTG
>520999_BRCA2_150_FOR GGTCCAAACTTTTCATTTCTGCTTTTAAAGG >520999_BRCA2_150_REV TTGCATGCAGTATATGCATAAGCTTGT
>520999_BRCA2_151_FOR TTTTCTTAGAATATTGACATACTTTGCAATGAAGC >520999_BRCA2_151_REV ACCAGAAGCTTGTTTCCTGTACC
>520999_BRCA2_152_FOR TCCACCCCAACTAAAGACTGTACT >520999_BRCA2_152_REV CTAGGTATACAACAGAATATACGATGGCC
>520999_BRCA2_153_FOR TTGCGTGCTTAAATATTTTCAATGAAAAGTTACTT >520999_BRCA2_153_REV CAGGTGTGGAAACAGACTTCCTTT
>520999_BRCA2_154_FOR CTTCTCCTAATTGTGAGATATATTATCAAAGTCC >520999_BRCA2_154_REV AGGCTCTTCTCTTTTTGCAGTTCTT
>520999_BRCA2_155_FOR TCAGCCCAGATGACTTCAAAGTCT >520999_BRCA2_155_REV GCAGCCGGAGAAACAAATGTACAA
>520999_BRCA2_156_FOR TCTTGAGTAGACTGCCTTTACCTCCA >520999_BRCA2_156_REV GGAGTCATCTGAGGAGAATTCAGTTCT
>520999_BRCA2_157_FOR ATTTCAGCCACCAAGGAGTTGTG >520999_BRCA2_157_REV CAATGCAAGTTCTTCGTCAGCTATTG
>520999_BRCA2_158_FOR CTCAGATGACTCCATTTAAAAAATTCAATGAAATT >520999_BRCA2_158_REV GAGCAGTCCTAGTGGATTCACTGA
>520999_BRCA2_159_FOR CAAGCTCTTTTGTCTGGTTCAACAGG >520999_BRCA2_159_REV GCCTGGGAACTCTCCTGTTCTTT
>520999_BRCA2_160_FOR CTCAGACTGAAACGACGTTGTACTACATC >520999_BRCA2_160_REV CCAGTCTTATAAACTGGAAAGGTTAAGCGTC
>520999_BRCA2_161_FOR GTACGGAAGAATGTGAGAAAAATAAGCAGG >520999_BRCA2_161_REV TGTGCAACATAAGTACTAATGTGTGGT
>520999_AKT1_01_FOR GAGTGAGGATGGCTACAGGCAGAGGTG >520999_AKT1_01_REV CCTGCAGTGGACCACTGTCATCGAAC
>520999_AKT1_02_FOR CACGTACCGCTCCTCAGGAGTCTCCAC >520999_AKT1_02_REV AGTGCCAGCTGATGAAGACGGAGCG
>520999_AKT1_03_FOR GCAGGCAGCGGATGATGAAGGTGTTG >520999_AKT1_03_REV GGTATGCAAGGGGAGCTGGCTGGTG
>520999_AKT1_04_FOR GCTCCAGCCAACCCCCCAAATCTGAAT >520999_AKT1_04_REV CTCAAGAATGATGGCACCTTCATTGGCTAC
>520999_AKT1_05_FOR ACAGAGAAGTTGTTGAGGGGAGCCTCA >520999_AKT1_05_REV GCACGTCTGTAGGGGAGTACATCAAGAC
>520999_AKT1_06_FOR GTGCCATCATTCTTGAGGAGGAAGTAGCGTGG >520999_AKT1_06_REV CCTGGATGACTGGCGAGGGTCTGACG
>520999_TP53_01_FOR TCTGACGCACACCTATTGCAAGCAAG >520999_TP53_01_REV GGTCAGTCTACCTCCCGCCATAAAAAAC
>520999_TP53_02_FOR GTGGGGAACAAGAAGTGGAGAATGTCAG >520999_TP53_02_REV CACAGACCCTCTCACTCATGTGATGT
>520999_TP53_03_FOR TCAGCTGCCTTTGACCATGAAGGCA >520999_TP53_03_REV TGAATGAGGCCTTGGAACTCAAGGATGC
>520999_TP53_04_FOR CTGAGGTCACTCACCTGGAGTGAG >520999_TP53_04_REV CTCCTCTGTTGCTGCAGATCCG
>520999_TP53_05_FOR GGCATCCTTGAGTTCCAAGGCCTCA >520999_TP53_05_REV GCATGTTGCTTTTGTACCGTCATAAAGTC
>520999_TP53_06_FOR GCAGGCTAGGCTAAGCTATGATGTTCC >520999_TP53_06_REV GCATGAAAATGGTTCTATGACTTTGCCTG
>520999_TP53_07_FOR GGAAGTAACACCATCGTAAGTCAAG >520999_TP53_07_REV GTAGCTAACTAACTTCAGAACACCAACTT
>520999_TP53_08_FOR ACGGCATTTTGAGTGTTAGACTGGA >520999_TP53_08_REV CTTTCCTAGCACTGCCCAACAACAC
>520999_TP53_09_FOR CATCCAGTGGTTTCTTCTTTGGCTG >520999_TP53_09_REV GCACTAAGCGAGGTAAGCAAGCAGG
>520999_TP53_10_FOR GGCATAACTGCACCCTTGGTCTCCTCCAC >520999_TP53_10_REV GGAACAGCTTTGAGGTGCGTGTTTGT
>520999_TP53_11_FOR CCTTTCTTGCGGAGATTCTCTTCCTC >520999_TP53_11_REV GTAGGACCTGATTTCCTTACTGCCTC
>520999_TP53_12_FOR GATGAGAGGTGGATGGGTAGTAGTATGG >520999_TP53_12_REV CCATCCTCACCATCATCACACTGGAA
>520999_TP53_13_FOR CAGTGTGCAGGGTGGCAAGTGGCTC >520999_TP53_13_REV ATCTCCTAGGTTGGCTCTGACTGTAC
>520999_TP53_14_FOR GGTTCATGCCGCCCATGCAGGAACTG >520999_TP53_14_REV CCTGCTTGCCACAGGTCTCCCCAAGG
>520999_TP53_15_FOR ACTGACAACCACCCTTAACCCCTCCT >520999_TP53_15_REV CCCTCCTCAGCATCTTATCCGAGTG
>520999_TP53_16_FOR CTGTCATCCAAATACTCCACACGCA >520999_TP53_16_REV CTCAGATAGCGATGGTGAGCAGCTG
>520999_TP53_17_FOR GACCCTGGGCAACCAGCCCTGTC >520999_TP53_17_REV CGCGCCATGGCCATCTACAAGCAG
>520999_TP53_18_FOR GGCAGCGCCTCACAACCTCCGTC >520999_TP53_18_REV CCCTGCCCTCAACAAGATGTTTTGCC
>520999_TP53_19_FOR TGTGGAATCAACCCACAGCTGCACA >520999_TP53_19_REV TGCCGTCTTCCAGTTGCTTTATCTG
>520999_TP53_20_FOR GATACGGCCAGGCATTGAAGTCTC >520999_TP53_20_REV GTCCCTTCCCAGAAAACCTACCAG
>520999_TP53_21_FOR CAGAATGCAAGAAGCCCAGACGGAAAC >520999_TP53_21_REV AGATGAAGCTCCCAGAATGCCAGAGG
>520999_TP53_22_FOR GGTGTAGGAGCTGCTGGTGCAGG >520999_TP53_22_REV CCTTGCCGTCCCAAGCAATGGATG
>520999_TP53_23_FOR GTCTTCAGTGAACCATTGTTCAATATCGTCC >520999_TP53_23_REV TCTGACTGCTCTTTTCACCCATCTAC
>520999_TP53_24_FOR CATCAAATCATCCATTGCTTGGGAC >520999_TP53_24_REV CTGACTTTCTGCTCTTGTCTTTCAGACTTC
>520999_TP53_25_FOR CCCAACCCTTGTCCTTACCAGAACG >520999_TP53_25_REV CCATTGGAAGGGCAGGCCCAC
>520999_TP53_26_FOR CAAGAGCAGAAAGTCAGTCCCATGG >520999_TP53_26_REV GTCGAGCCCCCTCTGAGTCAG
>520999_TP53_27_FOR GGATCCACTCACAGTTTCCATAGGTCTG >520999_TP53_27_REV GATCCCCACTTTTCCTCTTGCAGCAG
>520999_ERBB2_01_FOR TGTGGTCTCCCATACCCTCTCAGCGTAC >520999_ERBB2_01_REV GGTCTAAGAGGCAGCCATAGGGCATAAGC
>520999_ERBB2_02_FOR CATCTGCCTGACATCCACGGTGCAG >520999_ERBB2_02_REV GGACATAGGGGTTTGCTCCGGAGAGAC
>520999_BRCA1_01_FOR GATTTCCAAGGGAGACTTCAAGCAG >520999_BRCA1_01_REV GAGCTTACAAAGTGGCCTTTCC
>520999_BRCA1_02_FOR AGGACAGTAGAAGGACTGAAGAGTGAGAGG >520999_BRCA1_02_REV GATACCCCAGATCCCCCACAGCCACTACTGAC
>520999_BRCA1_03_FOR TCCTGTGGCTCTGTACCTGTG >520999_BRCA1_03_REV ATGTGTGAGGCACCTGTGGTGA
>520999_BRCA1_04_FOR TCCTGGCACTGGTAGAGTGCT >520999_BRCA1_04_REV CGATTGATTAGAGCCTAGTCCAGGAG
>520999_BRCA1_05_FOR CAAGAACTGTGCTACTCAAGCACC >520999_BRCA1_05_REV CAATTGTGGTTGTGCAGCCAGA
>520999_BRCA1_06_FOR ACAGGTACATGCAGGCACCTTAC >520999_BRCA1_06_REV GAAGTGACAGTTCCAGTAGTCCTAC
>520999_BRCA1_07_FOR AGGCTACAGTAGGGGCATCCATA >520999_BRCA1_07_REV TGCTTCTGTGGTGAAGGAGCT
>520999_BRCA1_08_FOR ACAGGGCACCCAATACTTACTGTG >520999_BRCA1_08_REV CCTGGGTTAAGTATGCAGATTACTGC
>520999_BRCA1_09_FOR AGCAATCTGAGGAACCCCCAT >520999_BRCA1_09_REV GGCTAGAAATCTGTTGCTATGGGC
>520999_BRCA1_10_FOR TGCTGGAACTCTGGGGTTCTC >520999_BRCA1_10_REV ACTAGATTTTCCTTCTCTCCATTCCCC
>520999_BRCA1_11_FOR CAAAATGAAGCGGCCCATCTCT >520999_BRCA1_11_REV GGTCAATGGAAGAAACCACCAAGG
>520999_BRCA1_12_FOR CTTGAGGGAGGGAGCTTTACCTTT >520999_BRCA1_12_REV AGCTTCTCTTTCTCTTATCCTGATGGG
>520999_BRCA1_13_FOR CATTGACCACATCTCCTCTGACTTC >520999_BRCA1_13_REV CGCCTGGCCTGAATGCCTTAA
>520999_BRCA1_14_FOR AGGAAAGTGGTGCATTGATGGAAG >520999_BRCA1_14_REV TGATCTCTTTAGGGGTGACCCAG
>520999_BRCA1_15_FOR GTAACATCAAGTACTTACCTCATTCAGCA >520999_BRCA1_15_REV CTGTGCTCTTTTGTGAATCGCTGA
>520999_BRCA1_16_FOR GTTAGGTGTAAAAATGCAATTCTGAGGTG >520999_BRCA1_16_REV GGACACTGAAATATTTTCTAGGAATTGCG
>520999_BRCA1_17_FOR GAGGGGAGAAATAGTATTATACTTACAGAAATAGC >520999_BRCA1_17_REV CAGCACTTCCTGATTTTGTTTTCAACT
>520999_BRCA1_18_FOR GCAGCAGATGCAAGGTATTCTGTAAAGG >520999_BRCA1_18_REV GATTTAATTTCAGATGCTCGTGTACAAGTTTGCC
>520999_BRCA1_19_FOR CATGAGTAGTCTCTTCAGTAATTAGATTAG >520999_BRCA1_19_REV GTATTCTGAGCTGTGTGCTAGAGGTAACTC
>520999_BRCA1_20_FOR TCTTCCTCTAGGTTATTAATTGACAATACCTAC >520999_BRCA1_20_REV CAACAGAAAGGGTCAACAAAAGAATGT
>520999_BRCA1_21_FOR CACTCACAAATTCTTCTGGGGTCAG >520999_BRCA1_21_REV GCTGCTGCTCATACTACTGATACTGC
>520999_BRCA1_22_FOR CTTCTCCCTGCTCACACTTTCTTC >520999_BRCA1_22_REV GCTCGTGTTGGCAACATACCATC
>520999_BRCA1_23_FOR CTGGGCAGATTCTGCAACTTTC >520999_BRCA1_23_REV GGAATCTGGAATCAGCCTCTTCTCTG
>520999_BRCA1_24_FOR TCTGGGGCTCTGTCTTCAGAAG >520999_BRCA1_24_REV ACAGAGACCAGAACTTTGTAATTCAACA
>520999_BRCA1_25_FOR AGACTAGTACATCTAAAAGTTGGTTAACCAG >520999_BRCA1_25_REV AGTCTGGGCCACACGATTTGA
>520999_BRCA1_26_FOR GATGAAATATTACCTAGATCTTGCCTTGGC >520999_BRCA1_26_REV AGTTGCTCTGGGAGTCTTCAGAATA
>520999_BRCA1_27_FOR CACATCAACAACCTTAATGAGCTCCTC >520999_BRCA1_27_REV GTGGCGATGGTTTTCTCCTTCCATT
>520999_BRCA1_28_FOR GTACCACCTATCATCTAATGATGGGC >520999_BRCA1_28_REV GCTGTTTCATTTATGCTTTGGCTGCC
>520999_BRCA1_29_FOR GATGTCAGATACCACAGCATCTTTACATTGATG >520999_BRCA1_29_REV GAATACCCTATAAGCCAGAATCCAGAAGG
>520999_BRCA1_30_FOR GAACTATCTGCAGACACCTCAAACTTGTC >520999_BRCA1_30_REV CTAACCTGAATTATCACTATCAGAACAAAGCAG
>520999_BRCA1_31_FOR AGCAGAAAGGCCTTCTGGATTCT >520999_BRCA1_31_REV GATGCTTTTGAAAAAAATCAGTATTCTAACCTG
>520999_BRCA1_32_FOR GCAGAGGGAAGGCTCAGATACAAACACAGC >520999_BRCA1_32_REV CTAAAAGGCCTAGAGAACATATATCAGG
>520999_BRCA1_33_FOR ACCATCTTTCAGTAATTTGCCAAAATGACG >520999_BRCA1_33_REV GAACAGTACCCGTTCCCTTGATGTCTACAATTTC
>520999_BRCA1_34_FOR GAGCTAGGTCCTTACTCTTCAGAAGG >520999_BRCA1_34_REV CTACCCTTCCATCATAAGTGACTC
>520999_BRCA1_35_FOR ACCTTTTTCTGATGTGCTTTGTTCTGG >520999_BRCA1_35_REV ACCTGATAAAGCTCCAGCAGGAAAT
>520999_BRCA1_36_FOR TAGCTGTTAGAAGGCTGGCTCC >520999_BRCA1_36_REV GGAAAGCTTCTCAAAGTATTTCATTTTCTTGG
>520999_BRCA1_37_FOR GTCAGCAAACCTAAGAATGTGGGA >520999_BRCA1_37_REV AGCGTCTCTGAAGACTGCTCA
>520999_BRCA1_38_FOR CACACACACGCTTTTTACCTGAGT >520999_BRCA1_38_REV AGTCTGCTTTTACATCTGAACCTCTG
>520999_BRCA1_39_FOR AGACGCTTGTTTCACTCTCACAC >520999_BRCA1_39_REV GAAAGTAAATCCAGTCCTGCCAATGAG
>520999_BRCA1_40_FOR TTGTAAAATGTGCTCCCCAAAAGC >520999_BRCA1_40_REV AAGAGGAACGGGCTTGGAAGA
>520999_BRCA1_41_FOR CCTGGTTCCAATACCTAAGTTTGAATCC >520999_BRCA1_41_REV GGTTCTTCCAAACAAATGAGGCATCAGT
>520999_BRCA1_42_FOR AAACCAATTCCTTGTCACTCAGACC >520999_BRCA1_42_REV CTGCTAGCTTGTTTTCTTCACAGTG
>520999_BRCA1_43_FOR AGGATCCTGGGTGTTTGTATTTGC >520999_BRCA1_43_REV GCTTAAATGACTGCAGTAACCAGGT
>520999_BRCA1_44_FOR CTCACTAAGGTGATGTTCCTGAGATGC >520999_BRCA1_44_REV CACTTGTTATTTGGTAAAGTAAACAATATACCTTCTCAGTCTACT
>520999_BRCA1_45_FOR TTAGACAGACACTCGGTAGCAACG >520999_BRCA1_45_REV GGGCCAAGAAATTAGAGTCCTCAG
>520999_BRCA1_46_FOR AACAAGTGTTGGAAGCAGGGAAG >520999_BRCA1_46_REV CAGAAAGGAGAGCTTAGCAGGAGT
>520999_BRCA1_47_FOR GGTAACCCTGAGCCAAATGTGTATG >520999_BRCA1_47_REV CACCTGATGACCTGTTAGATGATGGTG
>520999_BRCA1_48_FOR TGCTAAAAACAGCAGAACTTTCCTTAATGTCATTTTCAGCA >520999_BRCA1_48_REV AGAAGTAGTTCAGACTGTTAATACAGATTTCTCTCCA
>520999_BRCA1_49_FOR CTTCCCATAGGCTGTTCTAAGTTATCTGA >520999_BRCA1_49_REV GGTTTTGCAACCTGAGGTCTATAAACA
>520999_BRCA1_50_FOR TTTTATTTCAGGATGCTTACAATTACTTCCAGG >520999_BRCA1_50_REV TCCAGTATTAATGAAATAGGTTCCAGTGA
>520999_BRCA1_51_FOR GGTTGCAAAACCCCTAATCTAAGCATAG >520999_BRCA1_51_REV GCCAGCTCAAGCAATATTAATGAAGTAGG
>520999_BRCA1_52_FOR TGGAGCCCACTTCATTAGTACTGG >520999_BRCA1_52_REV CAATGTCACCTGAAAGAGAAATGGGA
>520999_BRCA1_53_FOR TACGGCTAATTGTGCTCACTGTAC >520999_BRCA1_53_REV ACCACCACTTTTTCCCATCAAGTC
>520999_BRCA1_54_FOR TGTTCCTCAAAGTTTTCCTCTAGCAG >520999_BRCA1_54_REV AGTTCAGAGGCAACGAAACTGG
>520999_BRCA1_55_FOR AGTGGTGGTATACGATATGGGTTTTGT >520999_BRCA1_55_REV GGTTGGTCAGAAAGATAAGCCAGTTGATA
>520999_BRCA1_56_FOR AACTGAGATGATAGACAAAACCTAGAGCC >520999_BRCA1_56_REV CAAAAGGAAGAAAATCAAGGAAAGAATGAGTC
>520999_BRCA1_57_FOR CCACAGGAAAGCCTGCAGTGATA >520999_BRCA1_57_REV AACATTCTCTGCCCACTCTGGGT
>520999_BRCA1_58_FOR TTGTTCACATTCAAAAGTGACTTTTGGAC >520999_BRCA1_58_REV TGCTCAGTATTTGCAGAATACATTCAAGG
>520999_BRCA1_59_FOR GCACATTCCTCTTCTGCATTTCCTGG >520999_BRCA1_59_REV GAAGGCTTTAAGTATCCATTGGGACATG
>520999_BRCA1_60_FOR TCTTCCATTTCTATGCTTGTTTCCCG >520999_BRCA1_60_REV ATGTGTGAGTCAGTGTGCAGCA
>520999_BRCA1_61_FOR CTTTGGAACAACCATGAATTAGTCCC >520999_BRCA1_61_REV TGGTACCTGGTACTGATTATGGCA
>520999_BRCA1_62_FOR CTTCCCTAGAGTGCTAACTTCCAGT >520999_BRCA1_62_REV TGCTGAAGACCCCAAAGATCTCATG
>520999_BRCA1_63_FOR AATACTGCTACTCTCTACAGATCTTTCAGT >520999_BRCA1_63_REV TGAACTTAAAGAATTTGTCAATCCTAGCCTT
>520999_BRCA1_64_FOR TCAGCATTATTAGACACTTTAACTGTTTCTAGTTTCTCT >520999_BRCA1_64_REV CAAGCCAAATGAACAGACAAGTAAAAGAC
>520999_BRCA1_65_FOR TGCATTTGTTAACTTCAGCTCTGGG >520999_BRCA1_65_REV AAATGCCAGTCAGGCACAGCA
>520999_BRCA1_66_FOR CTTCTTGGCTCCAGTTGCAGGT >520999_BRCA1_66_REV AGCCCACCTAATTGTACTGAATTGC
>520999_BRCA1_67_FOR TGTACTTTTTTTTCTTTATCTCTTCACTGCTAG >520999_BRCA1_67_REV TCAAAAGCACCTAAAAAGAATAGGCTG
>520999_BRCA1_68_FOR ACTAGTTCAAGCGCATGAATATGCC >520999_BRCA1_68_REV CTGCTTTCAAAACGAAAGCTGAACC
>520999_BRCA1_69_FOR ATTTAATTCGAGTTCCATATTGCTTATACTGCTG >520999_BRCA1_69_REV CAAGTGATGAATATTACTAATAGTGGTCATGAGA
>520999_BRCA1_70_FOR GTTAGGATTTTTCTCATTCTGAATAGAATCACC >520999_BRCA1_70_REV GGATTTTATCAAGAAAGCAGATTTGGCAGT
>520999_BRCA1_71_FOR TGCTCCGTTTGGTTAGTTCCCT >520999_BRCA1_71_REV ACAAGAGCGTCCCCTCACAAAT
>520999_BRCA1_72_FOR AAATCCTCAGGATGAAGGCCTGA >520999_BRCA1_72_REV AAGCCTCCCCAACTTAAGCCA
>520999_BRCA1_73_FOR CTGTGGCTCAGTAACAAATGCTCCTA >520999_BRCA1_73_REV GCTTTAATATGTAAAAGTGAAAGAGTTCACTCC
>520999_BRCA1_74_FOR CTTCCGATAGGTTTTCCCAAATATTTTGTC >520999_BRCA1_74_REV GACGTTCTAAATGAGGTAGATGAATATTCTGG
>520999_BRCA1_75_FOR AAGCCTCATGAGGATCACTGGCCAGTAAGTC >520999_BRCA1_75_REV GTGATGAACTGTTAGGTTCTGATGACTC
>520999_BRCA1_76_FOR CGTCCAATACATCAGCTACTTTGGC >520999_BRCA1_76_REV CCTAGAGATACTGAAGATGTTCCTTGG
>520999_BRCA1_77_FOR ACCACTCATTAACTTTCTGAATGCTGC >520999_BRCA1_77_REV CCCAGCACAGAAAAAAAGGTAGATCTG
>520999_BRCA1_78_FOR CTTATTCCATTCTTTTCTCTCACACAGG >520999_BRCA1_78_REV GGCTTAGCAAGGAGCCAACATAAC
>520999_BRCA1_79_FOR TGGGAGTCCGCCTATCATTACATGT >520999_BRCA1_79_REV CAGCATGAGAACAGCAGTTTATTACTCAC
>520999_BRCA1_80_FOR TATGTTGGCTCCTTGCTAAGCCAG >520999_BRCA1_80_REV TGTGGAGCCATGTGGCACAAAT
>520999_BRCA1_81_FOR TGAGTAATAAACTGCTGTTCTCATGCTGTAATGAGCT >520999_BRCA1_81_REV GGATGTAACAAATACTGAACATCATCAACCCAGT
>520999_BRCA1_82_FOR CTGCACGCTTCTCAGTGGTGTTCA >520999_BRCA1_82_REV TGATTTCCACCTCCAAGGTGTATGAAGTATGT
>520999_BRCA1_83_FOR GTTACATCCGTCTCAGAAAATTCACAAG >520999_BRCA1_83_REV TAGCCAGTTGGTTGATTTCCACC
>520999_BRCA1_84_FOR GTAAAGGTCCCAAATGGTCTTCAGA >520999_BRCA1_84_REV ACCCCTCAAGGAACCAGGGATG
>520999_BRCA1_85_FOR ACTTTGCCATTACCCTTTTTTGCAGA >520999_BRCA1_85_REV GGTCATTTGACAGTTCTGCATACATGTAAC
>520999_BRCA1_86_FOR CCAGCTTCATAGACAAAGGTTCTC >520999_BRCA1_86_REV GAAAACTTTTATTGATTTATTTTTTGGGG
>520999_BRCA1_87_FOR CCACAAATACAAATTATGACCAAGATTTTTGGC >520999_BRCA1_87_REV ACTCTGAGGACAAAGCAGCGG
>520999_BRCA1_88_FOR CTTACCCAATTCAATGTAGACAGACGTC >520999_BRCA1_88_REV TGGCCAACAATTGCTTGACTGTTC
>520999_BRCA1_89_FOR CAAGGTTAGAGAGTTGGACACTGAG >520999_BRCA1_89_REV GGTCAATTTATTTTGTCCATGGTGTCAAG
>520999_BRCA1_90_FOR CTGGGCCACAGAGCAAGACTCCATCTC >520999_BRCA1_90_REV GATGAAGTTTCTATCATCCAAAGTATGGGCTAC
>520999_BRCA1_91_FOR GGTTCACTCTGTAGAAGTCTTTTGGC >520999_BRCA1_91_REV CATTTTTCTCTAACTGCAAACATAATGTTTTCCCTTG
>520999_BRCA1_92_FOR ACCACGTCATAGAAAGTAATTGTGCAAAC >520999_BRCA1_92_REV CGAGATTTAGTCAACTTGTTGAAGAGCTA
>520999_BRCA1_93_FOR GGGATATTCAACACTTACACTCCAAACC >520999_BRCA1_93_REV AGGTTGATAATCACTTGCTGAGTGTG
>520999_BRCA1_94_FOR CTTTTTCCTACTGTGGTTGCTTCCAACC >520999_BRCA1_94_REV GATTTTGCATGCTGAAACTTCTCAACCAG
>520999_BRCA1_95_FOR CATTCTTACATAAAGGACACTGTGAAGGC >520999_BRCA1_95_REV GATTATCTTTTCATGGCTATTTGCCTTTTGAGTATTC
>520999_BRCA1_96_FOR AGCTTCTATAAAGTTAGGTGTTTCCTGGG >520999_BRCA1_96_REV TACCCTGCTAGTCTGGAGTTGA
>520999_BRCA1_97_FOR CATTCAAACTTACTTGCAAAATATGTGGTCAC >520999_BRCA1_97_REV ACAGCTCAAAGTTGAACTTATTCACTAAG
>520999_BRCA1_98_FOR CATAGGAATCCCAAATTAATACACTCTTGTGC >520999_BRCA1_98_REV CTAATGTGTTAAAGTTCATTGGAACAGAAAGAAATGG
>520999_BRCA1_99_FOR GACATTTTGTACTTCTTCAACGCGAAG >520999_BRCA1_99_REV GTTCTTTGGTTTGTATTATTCTAAAACCTTCCAAATC
>520999_CYP2D6_01_FOR 45 GTACATTAGAGCCTCTGGCTAGGGAGCAG >520999_CYP2D6_01_REV 46 ACTTCAGCTTCTCGGTGCCCACTGG
>520999_CYP2D6_02_FOR 47 GCTCACCAGGAAAGCAAAGACACCATGG >520999_CYP2D6_02_REV 48 GTATCACCCAGGAGCCAGGCTCACTGAC
>520999_CYP2D6_03_FOR 49 GCAAGACTCCACGGAAGGGGACAGG >520999_CYP2D6_03_REV 50 GCTGAAGGATGAGGCCGTCTGGGAG
>520999_CYP2D6_04_FOR 51 CATCCAGGAAGTGTTCGGGGTGGAAG >520999_CYP2D6_04_REV 52 CCAGCATCCTAGAGTCCAGTCCCCAC
>520999_CYP2D6_05_FOR 53 CTATCACCAGGTGCTGGTGCTGAGCTG >520999_CYP2D6_05_REV 54 ATGCCCTACACCACTGCCGTGATTCATG
>520999_CYP2D6_06_FOR 55 TCATATGGGTCACACCCAGGGGGACG >520999_CYP2D6_06_REV 56 GTGAGGACGCATGTCTGTCCAGGCC
>520999_CYP2D6_07_FOR 57 ACCTCATGAATCACGGCAGTGGTGTAGG >520999_CYP2D6_07_REV 58 GCAAGAAGGAGTGTCAGGGCCGGAC
>520999_CYP2D6_08_FOR 59 CACGGGTGTCCCAGCAAAGTTCATGG >520999_CYP2D6_08_REV 60 CTGACAGGATGGTGACCACCTCGACC
>520999_CYP2D6_09_FOR 61 GATGAGCTCACGCTGCACATCCGGATG >520999_CYP2D6_09_REV 62 CTCAGACATGCTCAGGCCAAGGGGAAC
>520999_CYP2D6_10_FOR 63 CCATCCCGGCAGAGAACAGGTCAGC >520999_CYP2D6_10_REV 64 CTACCCCGTTCTGTCCCGAGTATGCTC
>520999_CYP2D6_11_FOR 65 GACTACCCTCATTCCTCCTGGGACGCTC >520999_CYP2D6_11_REV 66 GATGAGCTGCTAACTGAGCACAGGATGACC
>520999_CYP2D6_12_FOR 67 CAGCCACTCTCACCTTCTCCATCTCTGC >520999_CYP2D6_12_REV 68 GAATGCTGTCCCCGTCCTCCTGCATATC
>520999_CYP2D6_13_FOR 69 GAAAGCCTTTTGGAAGCGTAGGACCTTGC >520999_CYP2D6_13_REV 70 GAGATGGCTGGGGCCTGAGACTTGTC
>520999_CYP2D6_14_FOR 71 CTGCAGAGACTCCTCGGTCTCTCGC >520999_CYP2D6_14_REV 72 GAAGACCCTTTCGCCCCAACGGTCTC
>520999_CYP2D6_15_FOR 73 GAAGCGAGGGTCGTCGTACTCGAAGC >520999_CYP2D6_15_REV 74 GGAAGACAGAGGACGGGGAAGGCGAC
>520999_CYP2D6_16_FOR 75 GAGAGATGAGAGTAAGGGGTCGCCTTCCC >520999_CYP2D6_16_REV 76 GACTGGGCAAGAAGTCGCTGGAGCAG
>520999_CYP2D6_17_FOR 77 CTGACCATCACCCACCGGAGTGGTTG >520999_CYP2D6_17_REV 78 CACACACACAGGGGTGTTCCTGGCG
>520999_CYP2D6_18_FOR 79 CACAGACCCAAGTTGCGCAAGGTGG >520999_CYP2D6_18_REV 80 GTGGGTGGTGGATGGTGGGGCTAATG
>520999_CYP2D6_19_FOR 81 CCGGGTCCCACGGAAATCTGTCTCTG >520999_CYP2D6_19_REV 82 GACAGTGGTCGTGCTCAATGGGCTG
>520999_CYP2D6_20_FOR 83 CAACAGCTGCTTGCCTTGGGAACGC >520999_CYP2D6_20_REV 84 CTTCGGGGACGTGTTCAGCCTGCAG
>520999_CYP2D6_21_FOR 85 CACATTGAGCACGACCACCGGCGTC >520999_CYP2D6_21_REV 86 GGTTCAAATAGGACTAGGACCTGTAGTCTGGGG
>520999_CYP2D6_22_FOR 87 GCTTCTGGTCCAGCCTGTGGTTTCAC >520999_CYP2D6_22_REV 88 GCAACCTGCTGCATGTGGACTTCCAG
>520999_CYP2D6_23_FOR 89 GACCTCCTCCCTCACCTGGTCGAAGC >520999_CYP2D6_23_REV 90 GCCATCTTCCTGCTCCTGGTGGACC
>520999_CYP2D6_24_FOR 91 GATAGAGTGCAGCCCAGCGTTGGCG >520999_CYP2D6_24_REV 92 CCAGGTGTGTCCAGAGGAGCCCATTTG
>520999_BRAF_01_FOR 93 CTTTCTAGTAACTCAGCAGCATCTCAGGG >520999_BRAF_01_REV 94 GGTGATTTTGGTCTAGCTACAGTGAAATCTCG
>520999_BRAF_02_FOR 95 GGATCCAGACAACTGTTCAAACTGATGG >520999_BRAF_02_REV 96 GCCTAAACTCTTCATAATGCTTGCTCTGATAGG
본 발명에 있어서, 상기 앰플리콘은 변이가 없는 암 유전자 및 항암제 대사 관련 유전자의 야생형을 상기 프라이머로 증폭하여 얻어진 증폭 산물일 수 있으며, 바람직하게는 하기 표 3에 기재된 서열로부터 선택되는 것일 수 있으며, 더욱 바람직하기로는 서열번호 97 내지 128의 서열로부터 선택되는 것일 수 있다.
앰플리콘명 서열번호 앰플리콘 서열
>520999_AKT1_01 CCAGCACCCCGCCATCCCCGTGTCCCTCCTAAGCGCTGGGGCTGCCCAAGTGCCTGGCCTGGCCGCCACAGCCCACGTACCGCTCCTCAGGAGTCTCCACATGGAAGGTGC
>520999_AKT1_02 ATGGAAGGTGCGTTCGATGACAGTGGTCCACTGCAGGCAGCGGATGATGAAGGTGTTGGGCCGGGGC
>520999_AKT1_03 GGCCGGGGCCGCTCCGTCTTCATCAGCTGGCACTCTGCGGGCAGGCAGAGCCTCTGTCTGCGTGCATCCCCCTGCCCCTCCCAGGGCCCTCACCACAGCCCCCGCTG
>520999_AKT1_04 CCCGAGAGGCCAAGGGGATACTTACGCGCCACAGAGAAGTTGTTGAGGGGAGCCTCACGTTGGTCCACATCCTGCGGCCGCTCCTT
>520999_AKT1_05 CGTTGGTCCACATCCTGCGGCCGCTCCTTGTAGCCAATGAAGGTGCCATCATTCTTGAGGAGGAAGTAGCGTGGCCGCCAG
>520999_AKT1_06 CCGCCAGGTCTTGATGTACTCCCCTACAGACGTGCGGGTGGTGAGAGCCACGCACACTCTACC
>520999_BRAF_01 CCAAAAATTTAATCAGTGGAAAAATAGCCTCAATTCTTACCATCCACAAAATGGATCCAGACAACTGTTCAAACTGATGGGACCCACTCCAT
>520999_BRAF_02 GACCCACTCCATCGAGATTTCACTGTAGCTAGACCAAAATCACCTATTTTTACTGTGAGGTCTTCATGAAGAAATATATCTGAGGTGTAGTAAGTAAAGGAAAACAGTAGATCTCATTTT
>520999_BRCA1_01 AAAATCTTTAAGGGACCCTTGCATAGCCAGAAGTCCTTTTCAGGCTGATGTACATAAAATATTTAGTAGCCAGGACAGTAGAAGGACTGAAGAGTGAGAGGAGCTCCCAGGGCCT
>520999_BRCA1_02 AGCTCCCAGGGCCTGGAAAGGCCACTTTGTAAGCTCATTCTTGGGGTCCTGTGGCTCTGTACCTGTGGCTGGCTGCA
>520999_BRCA1_03 GCTGGCTGCAGTCAGTAGTGGCTGTGGGGGATCTGGGGTATCAGGTAGGTGTCCAGCTCCTGGCACTGGTAGAGTGCTACACTGTCCAACACCCACTCTCGGG
>520999_BRCA1_04 ACACTGTCCAACACCCACTCTCGGGTCACCACAGGTGCCTCACACATCTGCCCAATTGCTGGAGACAGAGAACACAAGCAGAGATTAGTGTCAATTCATT
>520999_BRCA1_05 AGGTAATGAGTGATAAACCAAACCCATGCAAAAGGACCCCATATAGCACAGGTACATGCAGGCACCTTACCATGGAAGCCATTGTCCTCTGTCCAGGCA
>520999_BRCA1_06 CATGGAAGCCATTGTCCTCTGTCCAGGCATCTGGCTGCACAACCACAATTGGGTGGACACCCTGGATCCCCAGGAAGGAAAGAGCATTCAAAGTGTCAAA
>520999_BRCA1_07 GGGACTGACAGGTGCCAGTCTTGCTCACAGGAGAGAATATTGTGTCCTCCCTCTCTGACAGGGCACCCAATACTTACTGTGCCAAGGGTGAATGATGAA
>520999_BRCA1_08 CCAAGGGTGAATGATGAAAGCTCCTTCACCACAGAAGCACCACACAGCTGTACCATCCATTCCAGTTGATCTAAAATGGACATTTAGATGTAAAATCACT
>520999_BRCA1_09 CGTGGGATCTTGCTTATAATACTCCACTATGTAAGACAAAGGCTGGTGCTGGAACTCTGGGGTTCTCCCAGGCTCTTACCTGTGGGCATGTTGGTGAAGG
>520999_BRCA1_10 CCAGGCTCTTACCTGTGGGCATGTTGGTGAAGGGCCCATAGCAACAGATTTCTAGCCCCCTGAAGATCTGGAAGAAGAGAGGAAGAGAGAGGGACA
>520999_BRCA1_11 GCAAAGGGGAGTGGAATACAGAGTGGTGGGGTGAGATTTTTGTCAACTTGAGGGAGGGAGCTTTACCTTTCTGTCCTGGGATTCTCTTGCTCGCTTTGGA
>520999_BRCA1_12 CTGTCCTGGGATTCTCTTGCTCGCTTTGGACCTTGGTGGTTTCTTCCATTGACCACATCTCCTCTGACTTCAAAATCATGCTGAAAGAAACCAAACACAA
>520999_BRCA1_13 AAAATCATGCTGAAAGAAACCAAACACAACCCATCAGGATAAGAGAAAGAGAAGCTTCCTTCAATGGAAGTGGAGCAGACACGTCATAT
>520999_BRCA1_14 GAAGCAAATACATTTTTAACTATATGACTGAATGAATATCTCTGGTTAGTTTGTAACATCAAGTACTTACCTCATTCAGCATTTTTCTTTCTTTAATAGA
>520999_BRCA1_16 TTAAAGGGAGGAGGGGAGAAATAGTATTATACTTACAGAAATAGCTAACTACCCATTTTCCTCC
>520999_BRCA1_18 TTCTTGGTATACCTGTTTTCATAACAACATGAGTAGTCTCTTCAGTAATTAGATTAGTTAAAGTGATGTGGTGTTTTCT
>520999_BRCA1_20 ATAAAACTCTTTCCAGAATGTTGTTAAGTCTTAGTCATTAGGGAGATACATATGGATACACTCACAAATTCTTCTGGGGTCAGGCCAGACACCACCATGG
>520999_BRCA1_22 CATTGCATTATACCCAGCAGTATCAGTAGTATGAGCAGCAGCTGGACTCTGGGCAGATTCTGCAACTTTCAATTGGGGAACTTTCAATGCAGAGGTTGAA
>520999_BRCA1_24 GATCAGATTCAGGGTCATCAGAGAAGAGGCTGATTCCAGATTCCAGGTAAGGGGTTCCCTCTGAAAGGAATGGGAGAAGTTTAATTTACACAACGATGAA
>520999_BRCA1_26 AAGTAAGATGTTTCCGTCAAATCGTGTGGCCCAGACTCTTCCAGCTGTTGCTCCTCCACATCAACAACCTTAATGAGCTCCTCTTGAGATGGGTAGTTTC
>520999_BRCA1_28 ATTTAGAAGGGGATGACCTAGAAAGATAAATGGAAGGAGAAAACCATCGCCACCAATTGTGAAAGGACAAATCATACTTGCTG
>520999_BRCA1_30 AGCAGAAAGGCCTTCTGGATTCTGGCTTATAGGGTATTCACTACTTTTCTGTGAAGTTAATACTGCTTTAAATGGAATGAGAAAACAAATCTACTTTA
>520999_BRCA1_32 TATTAAAAAGTCATTCCTCCTTTTGGCCAGAACCACCATCTTTCAGTAATTTGCCAAAATGACGAACACAAAGGGAAAGAGGAGAGGCA
>520999_BRCA1_34 AGATAAAGGGGAAGGAAAGAATTTTGCTTAAGATATCAGTGTTTGGCCAACAATACACACCTTTTTCTGATGTGCTTTGTTCTGGATTTCGCAGGTCCTCAAGGGCAGAA
>520999_BRCA1_36 CATGCTGTTCTAACACAGCTTCTAGTTCAGCCATTTCCTGCTGGAGCTTTATCAGGTTATGTTGCATGGTATCCCTCTGCTTCAAAAACGATAAATGGCA
>520999_BRCA1_38 GGTTAAAATGTCACTCTGAGAGGATAGCCCTGAGCAGTCTTCAGAGACGCTTGTTTCACTCTCACACCCAGATGCTGCTTCACCTTAAATAACAAAAA
>520999_BRCA1_40 ATAAACATTTAGCTCACTTCTATAAATAGACTGGGGCAAACACAAAAACCTGGTTCCAATACCTAAGTTTGAATCCATGCTTTGCTCTTCTTGATTATTT
>520999_BRCA1_42 AACTCCCTGGCTTTCAGACTGATGCCTCATTTGTTTGGAAGAACCAATCAAGAAAGGATCCTGGGTGTTTGTATTTGCAGTCAAGTCTTCCAATTCACTG
>520999_BRCA1_44 CTTTGCCAATATTACCTGGTTACTGCAGTCATTTAAGCTATTCTTCAATGATAATAAATTCTCCTCTGTGTTCTTAGACAGACACTCGGTAGCAACGGTGCTATGCCT
>520999_BRCA1_46 CTCTTCATCCTCACTAGATAAGTTCTCTTCTGAGGACTCTAATTTCTTGGCCCCTCTTCGGTAACCCTGAGCCAAATGTGTATGGGTGAAAGGGCTAGG
>520999_BRCA1_48 AAACTAGTATCTTCCTTTATTTCACCATCATCTAACAGGTCATCAGGTGTCTCAGAACAAACCTGAGATGCATGACTACTTCCCATAGGCTGTTCTAAGTTATCTGAAATCAGATA
>520999_BRCA1_50 AAGACTTTGTTTATAGACCTCAGGTTGCAAAACCCCTAATCTAAGCATAGCATTCAATTTTGGCCCTCTGTTTCTACCTAGTTCTGCTTGAATGTTTTCA
>520999_BRCA1_52 AACCTACTTCATTAATATTGCTTGAGCTGGCTTCTTTAAAAACATTTTCTCTAATGTTATTACGGCTAATTGTGCTCACTGTACTTGGAATGTTCTCATT
>520999_BRCA1_54 ATTTTTCTTACATTTAGTTTTAACAAATGACTTGATGGGAAAAAGTGGTGGTATACGATATGGGTTTTGTAAAAGTCCATGTTTATTTGGAGTAATGAGT
>520999_BRCA1_56 TCCTTTGATACTACATTTGGCATTATCAACTGGCTTATCTTTCTGACCAACCACAGGAAAGCCTGCAGTGATATTAACTGTCTGTACAGGCTTGATATTA
>520999_BRCA1_58 TTTGTTTCTTTAAGGACCCAGAGTGGGCAGAGAATGTTGCACATTCCTCTTCTGCATTTCCTGGATTTGAAAACGGAGCAAATGACTGGCGCTTTGAAA
>520999_BRCA1_60 ACTGTGGTTAACTTCATGTCCCAATGGATACTTAAAGCCTTCTGTGTCATTTCTATTATCTTTGGAACAACCATGAATTAGTCCCTTGGGGTTTTCAAA
>520999_BRCA1_62 AACGAGATACTTTCCTGAGTGCCATAATCAGTACCAGGTACCAATGAAATACTGCTACTCTCTACAGATCTTTCAGTTTGCAAAACCCTTTCTCCACTTAA
>520999_BRCA1_64 TCTTTTTCTTCTCTTGGAAGGCTAGGATTGACAAATTCTTTAAGTTCACTGGTATTTGAACACTTAGTAAAAGAACCAGGTGCATTTGTTAACTTCAGCTCTGGGAAAGTATCGCTGTCAT
>520999_BRCA1_66 TCTTTACCTTCCATGAGTTGTAGGTTTCTGCTGTGCCTGACTGGCATTTGGTTGTACTTTTTTTTCTTTATCTCTTCACTGCTAGAACAACTATCAATTT
>520999_BRCA1_68 TGGTAGAAGACTTCCTCCTCAGCCTATTCTTTTTAGGTGCTTTTGAATTGTGGATATTTAATTCGAGTTCCATATTGCTTATACTGCTGCTTATA
>520999_BRCA1_70 TTTTGTTTTATTCTCATGACCACTATTAGTAATATTCATCACTTGACCATTCTGCTCCGTTTGGTTAGTTCCCTGATTTATCATTTCAGGAGTCTTTTGA
>520999_BRCA1_72 TGTAGGTCTCCTTTTACGCTTTAATTTATTTGTGAGGGGACGCTCTTGTATTATCTGTGGCTCAGTAACAAATGCTCCTATAATTAGATTTTCAGTTACA
>520999_BRCA1_74 TTCAATATTACTCTCTACTGATTTGGAGTGAACTCTTTCACTTTTACATATTAAAGCCTCATGAGGATCACTGGCCAGTAAGTCTATTTTCTCTGAAGAA
>520999_BRCA1_76 ATTTGATTCAGACTCCCCATCATGTGAGTCATCAGAACCTAACAGTTCATCACTTCTGGAAAACCACTCATTAACTTTCTGAATGCTGCTATTTAGTGTTAT
>520999_BRCA1_78 GGATCAGCATTCAGATCTACCTTTTTTTCTGTGCTGGGAGTCCGCCTATCATTACATGTTTCCTTACTTCCAGCCCATCT
>520999_BRCA1_80 GCTGTTTGCTTTTATTACAGAATTCAGCCTTTTCTACATTCATTCTGTCTTTAGTGAGTAATAAACTGCTGTTCTCATGCTGTAATGAGCTGGCATGAGT
>520999_BRCA1_82 AATCATTATTACTGGGTTGATGATGTTCAGTATTTGTTACATCCGTCTCAGAAAATTCACAAGCAGCTGAAAATATACAAAAATAACAAGGTACTCAAAAACTGAATTGTCATTAAAAAAAT
>520999_BRCA1_84 ATAATCTAATTACAGTACTGTATCTACCCACTCTCTTTTCAGTGCCTGTTAAGTTGGCAAACTTTGCCATTACCCTTTTTTGCAGAATCCAAACTGATTT
>520999_BRCA1_86 TTTGACTCACCTGCAATAAGTTGCCTTATTAACGGTATCTTCAGAAGAATCAGATCCTAAAAAATTTCC
>520999_BRCA1_88 TTTTGAGGTTGTATCCGCTGCTTTGTCCTCAGAGTTCTCACAGTTCCAAGGTTAGAGAGTTGGACACTGAGACTGGTTTCCTGCTAAACAGTATGGTAAA
>520999_BRCA1_90 AAAAAAAAAAAAGAAAAAAAAAAGAAAAGAAGAAGAAGAAGAAGAAGAAAACAAATGGTTTTACCAAGGAAGGATTTTCGGGTTCACTCTGTAGAAGTCTTTTGGCACGGTTTCT
>520999_BRCA1_92 TTCCTGAGTTTTCATGGACAGCACTTGAGTGTCATTCTTGGGATATTCAACACTTACACTCCAAACCTGTGTCAAGCTGAAAAGCACAAATGATTTTCAA
>520999_BRCA1_94 TAGCATCATTACCAAATTATATACCTTTTGGTTATATCATTCTTACATAAAGGACACTGTGAAGGCCCTTTCTT
>520999_BRCA1_96 TTATGAAGGACAAAAACAAAAGCTAATAATGGAGCCACATAACACATTCAAACTTACTTGCAAAATATGTGGTCACACTTTGTGGAGACAGGTTCCTTGA
>520999_BRCA1_97 ACTTTGTGGAGACAGGTTCCTTGATCAACTCCAGACTAGCAGGGTAGGGGGGGAGAAAAAGAAAATAAATGAGGCTCAATAATTTATTTAAAAATAAAGCTATT
>520999_BRCA1_98 TGACTTACCAGATGGGACACTCTAAGATTTTCTGCATAGCATTAATGACATTTTGTACTTCTTCAACGCGAAGAGCAGATAAAT
>520999_BRCA1_99 AGCAGATAAATCCATTTCTTTCTGTTCCAATGAACTTTAACACATTAGAAAAACATATATATATATCTTTTTAAAAGGTTTATAAAATGACAACTTCATTTTATCATTTTAAAATAAAGTAAATTTAA
>520999_BRCA2_01 TCAGTCACATAATAAGGAATGCATCCCTGTGTAAGTGCATTTTGGTCTTCTGTTTTGCAGACTTATTTACCAAGCATTGGAGGAATATCGTAGGTAAAAA
>520999_BRCA2_02 TAGGTAAAAATGCCTATTGGATCCAAAGAGAGGCCAACATTTTTTGAAATTTTTAAGACACGCTGCAACAAAGCAGGTATTGACAAATTTTATATAACTTTATAAATT
>520999_BRCA2_03 ACAAATTTGTCTGTCACTGGTTAAAACTAAGGTGGGATTTTTTTTTTAAATAGATTTAGGACCAATAAGTCTTAATTGGTTTGAAGAACTTTCTTCAGAA
>520999_BRCA2_04 TTTCTTCAGAAGCTCCACCCTATAATTCTGAACCTGCAGAAGAATCTGAACATAAAAACAACAATTACGAACCAAACCTATTTAAAACTCCACAAAGGAA
>520999_BRCA2_05 CACAAAGGAAACCATCTTATAATCAGCTGGCTTCAACTCCAATAATATTCAAAGAGCAAGGGCTGACTCTGCCGCTGTACCAATCTCCTGTAAAAGAATT
>520999_BRCA2_06 CGCTGTACCAATCTCCTGTAAAAGAATTAGATAAATTCAAATTAGACTTAGGTAAGTAATGCAATATGGTAGACTGGGGAGAACTACAAACTAGGAATTTA
>520999_BRCA2_07 ATTATTGTACTGTTTCAGGAAGGAATGTTCCCAATAGTAGACATAAAAGTCTTCGCACAGTGAAAACTAAAATGGATCAAGCAGATGATGTTTCCTGTCCACTTCTAAATTCTT
>520999_BRCA2_08 TTCTAAATTCTTGTCTTAGTGAAAGGTATGATGAAGCTATTATATTAAAATATTTAAATGAAACATTTTCCTACATATATTTGTTCTATAAAGATGAATCTGATTTTTATGCTAATATTTT
>520999_BRCA2_09 TTTTATTTTAGTCCTGTTGTTCTACAATGTACACATGTAACACCACAAAGAGATAAGTCAGGTATGATTAAAAA
>520999_BRCA2_10 ATGATTAAAAACAATGCTTTTTATTCTTAGAATACTAGAAATGTTAATAAAAATAAAACTTAACAATTTTCCCCTTTTTTTACCCCCAGTGGTATGTGGGAGTTTGTTTCAT
>520999_BRCA2_100 TTTTGTCAAATTCAAGAATTGGAAAAAGAAGAGGAGAGCCCCTTATCTTAGTGGGTAAGTGTTCATTTTTA
>520999_BRCA2_101 TTAAAAACATATATGAAATATTTCTTTTTAGGAGAACCCTCAATCAAAAGAAACTTATTAAATGAATTTGACAGGATAATAGAAAATCAAGAAAAATC
>520999_BRCA2_102 ATAATAGAAAATCAAGAAAAATCCTTAAAGGCTTCAAAAAGCACTCCAGATGGTAAAATTAGCTTTTTATTTATAT
>520999_BRCA2_103 TGGATATTCTCTTAGATTTTAACTAATATGTAATATAAAATAATTGTTTCCTAGGCACAATAAAAGATCGAAGATTGTTTAT
>520999_BRCA2_104 AATAAAAGATCGAAGATTGTTTATGCATCATGTTTCTTTAGAGCCGATTACCTGTGTACCCTTTCGGTAAGACATGTTTAAATTTTT
>520999_BRCA2_105 AGGCATATTCCTAAATATTTATATGTGTACTAGTCAATAAACTTATATATTTTCTCCCCATTGCAGCACAACTAAGGAACGTCAAGAGATACAGAATCCAAATTTTAC
>520999_BRCA2_106 AAATTTTACCGCACCTGGTCAAGAATTTCTGTCTAAATCTCATTTGTATGAACATCTGACTTTGGAAAAATCTTCAAGCAATTTA
>520999_BRCA2_107 AAAAATCTTCAAGCAATTTAGCAGTTTCAGGACATCCATTTTATCAAGTTTCTGCTACAAGAAATGAAAAAATGAGACACTTGATTA
>520999_BRCA2_108 TTGATTACTACAGGCAGACCAACCAAAGTCTTTGTTCCACCTTTTAAAACTAAATCACATTTTCACAGAGTTGAACAGTGTGTTAGGAATATTAACTTGGAGGAAAACAGACAAAA
>520999_BRCA2_109 TAACTTGGAGGAAAACAGACAAAAGCAAAACATTGATGGACATGGCTCTGATGATAGTAAAAATAAGATTAATGACAATGAGATTCATCAGTTTAACAAAAA
>520999_BRCA2_11 TGTTTCATACACCAAAGTTTGTGAAGGTAAATATTCTACCTGGTTTATTTTTATGACTTAGTAATTGAGAATTTGACAATAGCGTTATACCTTTG
>520999_BRCA2_110 ATTCATCAGTTTAACAAAAACAACTCCAATCAAGCAGTAGCTGTAACTTTCACAAAGTGTGAAGAAGAACCTTTAGGTATTGTATGACAATTTGTGTGATGAATTTTT
>520999_BRCA2_111 TATTTATTCTTTGATAGATTTAATTACAAGTCTTCAGAATGCCAGAGATATACAGGATATGCGAATTAAGAAGAAACAAAGGCAACG
>520999_BRCA2_112 ATATACAGGATATGCGAATTAAGAAGAAACAAAGGCAACGCGTCTTTCCACAGCCAGGCAGTCTGTATCTTGC
>520999_BRCA2_113 ACAGCCAGGCAGTCTGTATCTTGCAAAAACATCCACTCTGCCTCGAATCTCTCTGAAAGCAGCAGTAGGAGGCCAAGTTCCCTCTGCGTGTTCTCATAAA
>520999_BRCA2_114 CTCATAAACAGGTATGTGTTTGTCTACAATACTGATGGCTTTTATGACAGAGTGTAATTTTATTTCATTAACTAGTATCT
>520999_BRCA2_115 GATACATGTTTACTTTAAATTGTTTTTCTTTTTTGTGTGTGTTTATTTTGTGTAGCTGTATACGTATGGCGTTTCTAAACA
>520999_BRCA2_116 TTTCTAAACATTGCATAAAAATTAACAGCAAAAATGCAGAGTCTTTTCAGTTTCACACTGAAGATTATTTTGGTAAGGAAAGTTTATGGACTGGAAAAGG
>520999_BRCA2_117 AAAAGGAATACAGTTGGCTGATGGTGGATGGCTCATACCCTCCAATGATGGAAAGGCTGGAAAAGAAGAATTTTATAGGTACTCTATGCAAAAAGATTGT
>520999_BRCA2_118 TTTTTATGATAATATTCTACTTTTATTTGTTCAGGGCTCTGTGTGACACTCCAGGTGTGGATCCAAAGCTTATTTCTAGAATTTGGGTTTATAAT
>520999_BRCA2_119 AGGTGTGGATCCAAAGCTTATTTCTAGAATTTGGGTTTATAATCACTATAGATGGATCATATGGAAACTGGCAGCTATGGAATGTGCCTTTCCTAA
>520999_BRCA2_12 AAAAAATAATATCCTTAATGATCAGGGCATTTCTATAAAAAATAAACTATTTTCTTTCCTCCCAGGGTCGTCAGACACCAAAACATATTTCTGAAA
>520999_BRCA2_120 TATGGAATGTGCCTTTCCTAAGGAATTTGCTAATAGATGCCTAAGCCCAGAAAGGGTGCTTCTTCAACTAAAATACAGGCA
>520999_BRCA2_121 AAGGGTGCTTCTTCAACTAAAATACAGGCAAGTTTAAAGCATTACATTACGTAATCATATACGGCAGTATGGTTAAGGTTTCTGTGTAGTCTGTGACTT
>520999_BRCA2_122 TAAACAGTGGAATTCTAGAGTCACACTTCCTAAAATATGCATTTTTGTTTTCACTTTTAGATATGATACGGAAATTGATA
>520999_BRCA2_123 AAATTGATAGAAGCAGAAGATCGGCTATAAAAAAGATAATGGAAAGGGATGACACAGCTGCAAAAACACTTGTTCTCTGTGTTTCTGACATAATTTCATT
>520999_BRCA2_124 TTGTTCTCTGTGTTTCTGACATAATTTCATTGAGCGCAAATATATCTGAAACTTCTAGCAATAAAACTAGTAGTGCAGATACCCAAAAAGTGGCCATTATT
>520999_BRCA2_125 AAAAGTGGCCATTATTGAACTTACAGATGGGTGGTATGCTGTTAAGGCCCAGTTAGATCCTCCCCTCTTAGCTGTCTTAAAGAATGGCAGACTGACAGTT
>520999_BRCA2_126 TAGCTGTCTTAAAGAATGGCAGACTGACAGTTGGTCAGAAGATTATTCTTCATGGAGCAGAACTGGTGGGCTCTCCTGATGCCTGTACACCTCTTGAA
>520999_BRCA2_127 ACCTCTTGAAGCCCCAGAATCTCTTATGTTAAAGGTAAATTAATTTGCACTCTTGGTAAAAATCAGTCATTGATTCAGTTAAATTCTAGAAGTTTTACAT
>520999_BRCA2_128 TAATAGAATTGAATACATATTTAACTACTAAATCAATATATTTATTAATTTGTCCAGATTTCTGCTAACAGTACTCGGCCTG
>520999_BRCA2_129 GGCCTGCTCGCTGGTATACCAAACTTGGATTCTTTCCTGACCCTAGACCTTTTCCTCTGCCCTTATCATCGCTTTTCAGTGATGGAGGAAATGTTGGTTGTGTTGATGTAATTATTCAAA
>520999_BRCA2_13 TCAGACACCAAAACATATTTCTGAAAGTCTAGGAGCTGAGGTGGATCCTGATATGTCTTGGTCAAGTTCTTTAGCTACACCACCCA
>520999_BRCA2_130 GAAATGTTGGTTGTGTTGATGTAATTATTCAAAGAGCATACCCTATACAGGTATGATGTATTCTTGAAACTTACCATATATTTCTTTCTTTTGATACAATTAATTTGTTT
>520999_BRCA2_131 ATTATTACAGTGGATGGAGAAGACATCATCTGGATTATACATATTTCGCAATGAAAGAGAGGAAGAAAAGGAAGCAGCAAAATATGTGGAGGCCCAACAAAAGAGACTA
>520999_BRCA2_132 AAAATATGTGGAGGCCCAACAAAAGAGACTAGAAGCCTTATTCACTAAAATTCAGGAGGAATTTGAAGAACATGAAGGTAAAATTAGTTATAT
>520999_BRCA2_133 TTCTTTAGTTTTAGTTGCTTTTGAATTTACAGTTTAGTGAATTAATAATCCTTTTGTTTTCTTAGAAAACACAACAAAACCATATTTACCATCACGTGCA
>520999_BRCA2_134 ACGTGCACTAACAAGACAGCAAGTTCGTGCTTTGCAAGATGGTGCAGAGCTTTATGAAGCAGTGAAGAATGCAGCAGACCCAGCTTACCTTGAGGTGAGA
>520999_BRCA2_135 CAGAGCTTTATGAAGCAGTGAAGAATGCAGCAGACCCAGCTTACCTTGAGGTGAGAGAGTAAGAGGACATATAATGAGGCTTGATGATTATTCAAGGTGA
>520999_BRCA2_136 TTTTTATTCCAATATCTTAAATGGTCACAGGGTTATTTCAGTGAAGAGCAGTTAAGAGCCTTGAATAATCACA
>520999_BRCA2_137 AGTTAAGAGCCTTGAATAATCACAGGCAAATGTTGAATGATAAGAAACAAGCTCAGATCCAGTTGGAAATTAGGAAGGCCATGGAATCTGCTGAACAAAA
>520999_BRCA2_138 GCCATGGAATCTGCTGAACAAAAGGAACAAGGTTTATCAAGGGATGTCACAACCGTGTGGAAGTTGCGTATTGTAAGCTATTCAAAAAAAGAAAAAGATT
>520999_BRCA2_139 GTGGAAGTTGCGTATTGTAAGCTATTCAAAAAAAGAAAAAGATTCAGGTAAGTATGTAAATGCTTTGTTTTTATCAGTTTTATTAACTTAAAA
>520999_BRCA2_14 CTTGGTCAAGTTCTTTAGCTACACCACCCACCCTTAGTTCTACTGTGCTCATAGGTAATAATAGCAAATGTGTATTTACAAGAAA
>520999_BRCA2_140 TTAAATGATAATCACTTCTTCCATTGCATCTTTCTCATCTTTCTCCAAACAGTTATACTGAGTATTTGGCGTCCATCATCAGATTTATATTCTCTGTTAA
>520999_BRCA2_141 TTAACAGAAGGAAAGAGATACAGAATTTATCATCTTGCAACTTCAAAATCTAAAAGTAAATCTGAAAGAGCTAACATACAGTTAGCAGCGACAAAAAAAA
>520999_BRCA2_142 AGCGACAAAAAAAACTCAGTATCAACAACTACCGGTACAAACCTTTCATTGTAATTTTTCAGTTTTGATAAGTGCTTGTTAGTTTATGGAATCTCCATAT
>520999_BRCA2_143 AATCTCCATATGTTGAATTTTTGTTTTGTTTTCTGTAGGTTTCAGATGAAATTTTATTTCAGATTTACCAGCCACGGGAGCCCCTTCACTTCAGCAAATT
>520999_BRCA2_144 GAGCCCCTTCACTTCAGCAAATTTTTAGATCCAGACTTTCAGCCATCTTGTTCTGAGGTGGACCTAATAGGATTTGTCGTTT
>520999_BRCA2_145 TAGGATTTGTCGTTTCTGTTGTGAAAAAAACAGGTAATGCACAATATAGTTAATTTTTTTTATTGATTCTTTTAAAAAACATTGTCTTTTAAAATCTCTTA
>520999_BRCA2_146 TTAAAATTCATCTAACACATCTATAATAACATTCTTTTCTTTTTTTTCCATTCTAGGACTTGCCCCTTTCGTCTATTTGTCAGACGAATGTTACAATTT
>520999_BRCA2_147 TATTTGTCAGACGAATGTTACAATTTACTGGCAATAAAGTTTTGGATAGACCTTAATGAGGACATTATTAAGCCTCATATGTTAATTGCTGCAAGCAACC
>520999_BRCA2_148 TATGTTAATTGCTGCAAGCAACCTCCAGTGGCGACCAGAATCCAAATCAGGCCTTCTTACTTTATTTGCTGGAGATTTTTCTGTGTTTTCTGCTAGTCCA
>520999_BRCA2_149 AGATTTTTCTGTGTTTTCTGCTAGTCCAAAAGAGGGCCACTTTCAAGAGACATTCAACAAAATGAAAAATACTGTTGAGGTAAGGTTACTTTT
>520999_BRCA2_15 TTTTTGATGTCTGACAAAAAATAAGTTTTTGCATTCTAGTGATAATATACAATACACATAAATTTTTATCTTACAGTCAGAAATGAAGAAGCATCTGAAACTGTATTT
>520999_BRCA2_150 AAATACTTTTGGAAACATAAATATGTGGGTTTGCAATTTATAAAGCAGCTTTTCCACTTATTTTCTTAGAATATTGACATACTTTGCAATGAAGCAGAAA
>520999_BRCA2_151 AGAAAACAAGCTTATGCATATACTGCATGCAAATGATCCCAAGTGGTCCACCCCAACTAAAGACTGTACTTCAGGGCCGTACACTGCTCAAATCATTCCT
>520999_BRCA2_152 TCAGGGCCGTACACTGCTCAAATCATTCCTGGTACAGGAAACAAGCTTCTGGTAAGTTAATGTAAACTCAAGGAATATTATAAGAAGTATATATGGA
>520999_BRCA2_153 TGATTTAGTTTTTTATGTTACTACATAATTATGATAGGCTACGTTTTCATTTTTTTATCAGATGTCTTCTCCTAATTGTGAGATATATTATCAAAGTCCTTTATCACTTTGTATGGCCA
>520999_BRCA2_154 TTTATCACTTTGTATGGCCAAAAGGAAGTCTGTTTCCACACCTGTCTCAGCCCAGATGACTTCAAAGTCTTGTAAAGGGGAGAAAGAGATTGATGACCAA
>520999_BRCA2_155 TGTAAAGGGGAGAAAGAGATTGATGACCAAAAGAACTGCAAAAAGAGAAGAGCCTTGGATTTCTTGAGTAGACTGCCTTTACCTCCACCTGTTAGTCCCAT
>520999_BRCA2_156 CCTGTTAGTCCCATTTGTACATTTGTTTCTCCGGCTGCACAGAAGGCATTTCAGCCACCAAGGAGTTGTGGCACCAAATACGAAACACCCATAAAGAAAAA
>520999_BRCA2_157 GCACCAAATACGAAACACCCATAAAGAAAAAAGAACTGAATTCTCCTCAGATGACTCCATTTAAAAAATTCAATGAAATTTCTCTTTTGGAAAGTAATT
>520999_BRCA2_158 TCTCTTTTGGAAAGTAATTCAATAGCTGACGAAGAACTTGCATTGATAAATACCCAAGCTCTTTTGTCTGGTTCAACAGGAGAAAAACAATTTATATCTG
>520999_BRCA2_159 AGAAAAACAATTTATATCTGTCAGTGAATCCACTAGGACTGCTCCCACCAGTTCAGAAGATTATCTCAGACTGAAACGACGTTGTACTACATCTCTGATC
>520999_BRCA2_16 AAACTGTATTTCCTCATGATACTACTGCTGTAAGTAAATATGACATTGATTAGACTGTTGAAATTGCTAACAATTTTGGAATGCCTTGTTAAATTATTTATCTTACATTTTTAATTT
>520999_BRCA2_160 TCTGATCAAAGAACAGGAGAGTTCCCAGGCCAGTACGGAAGAATGTGAGAAAAATAAGCAGGACACAATTACAACTAAAAAATATATCTAAGCATTTGCAAAGGCGACAATAAATTATT
>520999_BRCA2_161 ACACAATTACAACTAAAAAATATATCTAAGCATTTGCAAAGGCGACAATAAATTATTGACGCTTAACCTTTCCAGTTTATAAGACTGGAATATAATTTCAA
>520999_BRCA2_17 TTTTATACTAGTGATTTTAAACTATAATTTTTGCAGAATGTGAAAAGCTATTTTTCCAATCATGATGAAAGTCTGAAGAAAAATGATAGATTTA
>520999_BRCA2_18 AAAAATGATAGATTTATCGCTTCTGTGACAGACAGTGAAAACACAAATCAAAGAGAAGCTGCAAGTCATGGTAA
>520999_BRCA2_19 ATGGTAAGTCCTCTGTTTAGTTGAACTACAGGTTTTTTTGTTGTTGTTGTTTTGATTTTTTTTTTTTGAGGTGGAGTCTTGCT
>520999_BRCA2_20 AATAATATAAATTATATGGCTTATAAAATATTAATGTGCTTCTGTTTTATACTTTAACAGGATTTGGAAAAACATCAGGGAATTCATTTAAAGTAAATA
>520999_BRCA2_21 ATTTAAAGTAAATAGCTGCAAAGACCACATTGGAAAGTCAATGCCAAATGTCCTAGAAGATGAAGTATATGAAA
>520999_BRCA2_22 TATATGAAACAGTTGTAGATACCTCTGAAGAAGATAGTTTTTCATTATGTTTTTCTAAATGTAGAACAAAAAATCTACAAAAAGTAAGAACTAGCAAGACTAGGAAAAAAATTTTCCATGAAGCAAA
>520999_BRCA2_23 AAAAAAATTTTCCATGAAGCAAACGCTGATGAATGTGAAAAATCTAAAAACCAAGTGAAAGAAAAATACTCATTTGTATCTGAAGTGGAACCAAATGATACTGATCCATTAGATTCAAATGTAGCAAAT
>520999_BRCA2_24 ATTAGATTCAAATGTAGCAAATCAGAAGCCCTTTGAGAGTGGAAGTGACAAAATCTCCAAGGAAGTTGTACCGTCTTTGGC
>520999_BRCA2_25 TGGAAGTGACAAAATCTCCAAGGAAGTTGTACCGTCTTTGGCCTGTGAATGGTCTCAACTAACCCTTTCAGGTCTAAATGGAGCCCAGATGGAGAAAATA
>520999_BRCA2_26 TAAATGGAGCCCAGATGGAGAAAATACCCCTATTGCATATTTCTTCATGTGACCAAAATATTTCAGAAAAA
>520999_BRCA2_27 AAAATATTTCAGAAAAAGACCTATTAGACACAGAGAACAAAAGAAAGAAAGATTTTCTTACTTCAGAGAATTCTTTGCCACGTATTTCTAGCCTACCAAAATCAG
>520999_BRCA2_28 TACCAAAATCAGAGAAGCCATTAAATGAGGAAACAGTGGTAAATAAGAGAGATGAAGAGCAGCATCTTGAATCTCATACAGACTGCATTCTTGCAGTAAA
>520999_BRCA2_29 CTCATACAGACTGCATTCTTGCAGTAAAGCAGGCAATATCTGGAACTTCTCCAGTGGCTTCTTCATTTCAGGGTATCAAAAAGTCTATATTCAGAATAA
>520999_BRCA2_30 ATTTCAGGGTATCAAAAAGTCTATATTCAGAATAAGAGAATCACCTAAAGAGACTTTCAATGCAAGTTTTTCAGGTCATATGACTGATCCAAACTTTAAAAAA
>520999_BRCA2_31 ATATGACTGATCCAAACTTTAAAAAAGAAACTGAAGCCTCTGAAAGTGGACTGGAAATACATACTGTTTGCTCACAGAAGGAGGACTCCTTATGTCCAAAT
>520999_BRCA2_32 ACTCCTTATGTCCAAATTTAATTGATAATGGAAGCTGGCCAGCCACCACCACACAGAATTCTGTAGCTTTGAAGAATGCAG
>520999_BRCA2_33 AGAATTCTGTAGCTTTGAAGAATGCAGGTTTAATATCCACTTTGAAAAAGAAAACAAATAAGTTTATTTATGCTATACATGATGAAACATCTTATAAAGGAAAAAAAATA
>520999_BRCA2_34 TTTGAAAAAGAAAACAAATAAGTTTATTTATGCTATACATGATGAAACATCTTATAAAGGAAAAAAAATACCGAAAGACCAAAAATCAGAACTAATTAA
>520999_BRCA2_35 AAAAATCAGAACTAATTAACTGTTCAGCCCAGTTTGAAGCAAATGCTTTTGAAGCACCACTTACATTTGCAAATGCTGATTCAGGTACCTCTGTCTTTTTTTTTTTGTAAATA
>520999_BRCA2_36 TTTTTATGTTTAGGTTTATTGCATTCTTCTGTGAAAAGAAGCTGTTCACAGAATGATTCTGAAGAACCAACTTTGTCCTTAACTAGCTCTTTT
>520999_BRCA2_37 TTAACTAGCTCTTTTGGGACAATTCTGAGGAAATGTTCTAGAAATGAAACATGTTCTAATAATACAGTAAT
>520999_BRCA2_38 TAATAATACAGTAATCTCTCAGGATCTTGATTATAAAGAAGCAAAATGTAATAAGGAAAAACTACAGTTATTTATTACCCCAGAAGCTGATTCTCTGTCATGCCTGCAGGAA
>520999_BRCA2_39 CCTGCAGGAAGGACAGTGTGAAAATGATCCAAAAAGCAAAAAAGTTTCAGATATAAAAGAAGAGGTCTTGGCTGCAGCATGTCACCCAGTACAACATTCAAAAGT
>520999_BRCA2_40 ATTCAAAAGTGGAATACAGTGATACTGACTTTCAATCCCAGAAAAGTCTTTTATATGATCATGAAAATGCCAGCACTCTTATTTTAACTCCTACTT
>520999_BRCA2_41 TTATTTTAACTCCTACTTCCAAGGATGTTCTGTCAAACCTAGTCATGATTTCTAGAGGCAAAGAATCATACAAAAT
>520999_BRCA2_42 AATCATACAAAATGTCAGACAAGCTCAAAGGTAACAATTATGAATCTGATGTTGAATTAACCAAAAATATT
>520999_BRCA2_43 AATTATGAATCTGATGTTGAATTAACCAAAAATATTCCCATGGAAAAGAATCAAGATGTATGTGCTTTAAATGAAAATTATAAAAA
>520999_BRCA2_44 TTTAAATGAAAATTATAAAAACGTTGAGCTGTTGCCACCTGAAAAATACATGAGAGTAGCATCACCTTCAAGAAA
>520999_BRCA2_45 TTCAAGAAAGGTACAATTCAACCAAAACACAAATCTAAGAGTAATCCAAAAAAATCAAGAAGAAACTACTTCAATTTCAAAAATAA
>520999_BRCA2_46 AAAAAAATCAAGAAGAAACTACTTCAATTTCAAAAATAACTGTCAATCCAGACTCTGAAGAACTTTTCTCAGACAATGAGAATAATTTTGTCTT
>520999_BRCA2_47 AATAATTTTGTCTTCCAAGTAGCTAATGAAAGGAATAATCTTGCTTTAGGAAATACTAAGGAACTTCATGAAACAGACTTGACTTGTGTAAA
>520999_BRCA2_48 TTGTGTAAACGAACCCATTTTCAAGAACTCTACCATGGTTTTATATGGAGACACAGGTGATAAACAAGCAACCCAAGTGTCAATTAAAAAA
>520999_BRCA2_49 CAAGTGTCAATTAAAAAAGATTTGGTTTATGTTCTTGCAGAGGAGAACAAAAATAGTGTAAAGCAGCATATAAAAATGACTCTAGGTCAAGATTTAAAAT
>520999_BRCA2_50 ATTTAAAATCGGACATCTCCTTGAATATAGATAAAATACCAGAAAAAAATAATGATTACATGAACAAATGGGCAGGACTCTTAGGTCCAATTTCAAATCACAGTTTTGGAGGTA
>520999_BRCA2_51 AATTTCAAATCACAGTTTTGGAGGTAGCTTCAGAACAGCTTCAAATAAGGAAATCAAGCTCTCTGAACATAACATTAAGAAGAGCAAAATGTTCTTCAAAGATATT
>520999_BRCA2_52 AAATGTTCTTCAAAGATATTGAAGAACAATATCCTACTAGTTTAGCTTGTGTTGAAATTGTAAATACCTTGGCATTAGATAATCAAAAGAAACTGAGCAAGCCTCAGTCAATTAATA
>520999_BRCA2_53 TCAATTAATACTGTATCTGCACATTTACAGAGTAGTGTAGTTGTTTCTGATTGTAAAAATAGTCATATAACCCCTCAGATGTTATTTTCCAAGCAGGATTTTAATTCAAACCATAATTTAA
>520999_BRCA2_54 ATTTTAATTCAAACCATAATTTAACACCTAGCCAAAAGGCAGAAATTACAGAACTTTCTACTATATTAGAAGAATCAGGAAGTCAGTTTGAATTTACTCAGTTTAGAAAA
>520999_BRCA2_55 TTTGAATTTACTCAGTTTAGAAAACCAAGCTACATATTGCAGAAGAGTACATTTGAAGTGCCTGAAAACCAGATGACTATCTTAAAGACCACTTCTGA
>520999_BRCA2_56 ACTTCTGAGGAATGCAGAGATGCTGATCTTCATGTCATAATGAATGCCCCATCGATTGGTCAGGTAGACAGCAGCAAGCAATTTGAAGGTACAGTTGAAATTAAA
>520999_BRCA2_57 AGCAAGCAATTTGAAGGTACAGTTGAAATTAAACGGAAGTTTGCTGGCCTGTTGAAAAATGACTGTAACAAAAGTGCTTCTGGTTATTTAACAGATGAAAATGAAGTGGGGTTTAGGGGCTTTTATT
>520999_BRCA2_58 GGCTTTTATTCTGCTCATGGCACAAAACTGAATGTTTCTACTGAAGCTCTGCAAAAAGCTGTGAAACTGTTTAGTGATATTGAGAATATTA
>520999_BRCA2_59 AAAAAGCTGTGAAACTGTTTAGTGATATTGAGAATATTAGTGAGGAAACTTCTGCAGAGGTACATCCAATAAGTTTATCTTCAAGTAAATGTCATGATTCTGTT
>520999_BRCA2_60 AATAAGTTTATCTTCAAGTAAATGTCATGATTCTGTTGTTTCAATGTTTAAGATAGAAAATCATAATGATAAAACTGTAAGTGAAAAAAATAATAAAT
>520999_BRCA2_61 TTGTTTCAATGTTTAAGATAGAAAATCATAATGATAAAACTGTAAGTGAAAAAAATAATAAATGCCAACTGATATTACAAAATAATATTGAAAT
>520999_BRCA2_62 AAAAAAATAATAAATGCCAACTGATATTACAAAATAATATTGAAATGACTACTGGCACTTTTGTTGAAGAAATTACTGAAAATTACAAGAGAAATACTGAAAATGAAGATAACAAATATA
>520999_BRCA2_63 AAATTACTGAAAATTACAAGAGAAATACTGAAAATGAAGATAACAAATATACTGCTGCCAGTAGAAATTCTCATAACTTAGAATTTGATGGCAGTGATTCAAGTAAAAATGATACT
>520999_BRCA2_64 ATTCAAGTAAAAATGATACTGTTTGTATTCATAAAGATGAAACGGACTTGCTATTTACTGATCAGCACAACATATGTCTTAAATTATCTGGCCAGTTTATGAA
>520999_BRCA2_65 TTAAATTATCTGGCCAGTTTATGAAGGAGGGAAACACTCAGATTAAAGAAGATTTGTCAGATTTAACTTTTTTGGAAGTTG
>520999_BRCA2_66 ATTTAACTTTTTTGGAAGTTGCGAAAGCTCAAGAAGCATGTCATGGTAATACTTCAAATAAAGAACAGTTAACTGCTACTAAAACGGAGCAAAATATAAAAGATTTT
>520999_BRCA2_67 AAAATATAAAAGATTTTGAGACTTCTGATACATTTTTTCAGACTGCAAGTGGGAAAAATATTAGTGTCGCCAAAGAGTCATTTAATAAAATTGTAAATTTCTTT
>520999_BRCA2_68 ATTTAATAAAATTGTAAATTTCTTTGATCAGAAACCAGAAGAATTGCATAACTTTTCCTTAAATTCTGAATTACATTCTGACATAAGAAAGAACAAAAT
>520999_BRCA2_69 TTAAATTCTGAATTACATTCTGACATAAGAAAGAACAAAATGGACATTCTAAGTTATGAGGAAACAGACATAGTTAAACACAAAATACTGAAAGAAA
>520999_BRCA2_70 TTAAACACAAAATACTGAAAGAAAGTGTCCCAGTTGGTACTGGAAATCAACTAGTGACCTTCCAGGGACAACCCGAACGTGATGAAAAGATCAAAGAACCTACTCTATTG
>520999_BRCA2_71 AAAAGATCAAAGAACCTACTCTATTGGGTTTTCATACAGCTAGCGGGAAAAAAGTTAAAATTGCAAAGGAATCTTTGGACAAAGTGAAAAACCTTTTTGATGAAAAA
>520999_BRCA2_72 AAAAACCTTTTTGATGAAAAAGAGCAAGGTACTAGTGAAATCACCAGTTTTAGCCATCAATGGGCAAAGACCCTAAAGTACAGAGAGGCCTGTAAAGACCTTGAATTA
>520999_BRCA2_73 TAAAGACCTTGAATTAGCATGTGAGACCATTGAGATCACAGCTGCCCCAAAGTGTAAAGAAATGCAGAATTCTCTCAATAATGATAAAAACCTTGTTTCTATT
>520999_BRCA2_74 AATAATGATAAAAACCTTGTTTCTATTGAGACTGTGGTGCCACCTAAGCTCTTAAGTGATAATTTATGTAGACAAACTGAAAATCTCAAAACATCAAAAAGTATCTTTTTGAAAGTTAAA
>520999_BRCA2_75 ATAATTTATGTAGACAAACTGAAAATCTCAAAACATCAAAAAGTATCTTTTTGAAAGTTAAAGTACATGAAAATGTAGAAAAAGAAACAGCAAAAAGTCCTGCAACTT
>520999_BRCA2_76 AAAAAGTCCTGCAACTTGTTACACAAATCAGTCCCCTTATTCAGTCATTGAAAATTCAGCCTTAGCTTTTTACACAAGTTGTAGTAGAAAAA
>520999_BRCA2_77 TTTTTACACAAGTTGTAGTAGAAAAACTTCTGTGAGTCAGACTTCATTACTTGAAGCAAAAAAATGGCTTAGAGAAGGAATATTT
>520999_BRCA2_78 AAAAAAATGGCTTAGAGAAGGAATATTTGATGGTCAACCAGAAAGAATAAATACTGCAGATTATGTAGGAAATTATTTGTATGAAAATAATTCAAA
>520999_BRCA2_79 AAATTATTTGTATGAAAATAATTCAAACAGTACTATAGCTGAAAATGACAAAAATCATCTCTCCGAAAAACAAGATACTTATTTAAGTAACAGTAGCATGTCTAACA
>520999_BRCA2_80 ATGTCTAACAGCTATTCCTACCATTCTGATGAGGTATATAATGATTCAGGATATCTCTCAAAAAATAAACTTGATTCTGGTATT
>520999_BRCA2_81 AAAAAATAAACTTGATTCTGGTATTGAGCCAGTATTGAAGAATGTTGAAGATCAAAAAAACACTAGTTTTTCCAAAGTAATATCCAATGTAAAA
>520999_BRCA2_82 AAAAAAACACTAGTTTTTCCAAAGTAATATCCAATGTAAAAGATGCAAATGCATACCCACAAACTGTAAATGAAGATATTTGCGTTGA
>520999_BRCA2_83 TAAATGAAGATATTTGCGTTGAGGAACTTGTGACTAGCTCTTCACCCTGCAAAAATAAAAATGCAGCCATTAAATTGTCCATATCTAATAGTAATAATTTTGAGGTAGGGCCA
>520999_BRCA2_84 AAAAATAAAAATGCAGCCATTAAATTGTCCATATCTAATAGTAATAATTTTGAGGTAGGGCCACCTGCATTTAGGATAGCCAGTGGTAAAATCGTTT
>520999_BRCA2_85 TAAAATCGTTTGTGTTTCACATGAAACAATTAAAAAAGTGAAAGACATATTTACAGACAGTTTCAGTAAAGTAATTAAGGAAAACAACGAGAATAAATCAAAAATTT
>520999_BRCA2_86 AATAAATCAAAAATTTGCCAAACGAAAATTATGGCAGGTTGTTACGAGGCATTGGATGATTCAGAGGATATTCTTCATAACTCTCTAGATAAT
>520999_BRCA2_87 ATATTCTTCATAACTCTCTAGATAATGATGAATGTAGCACGCATTCACATAAGGTTTTTGCTGACATTCAGAGTGAAGAAATTTTACAACATAACCAAAATAT
>520999_BRCA2_88 AAATTTTACAACATAACCAAAATATGTCTGGATTGGAGAAAGTTTCTAAAATATCACCTTGTGATGTTAGTTTGGAAACTTCAGATATATGTAAATGTAGTATA
>520999_BRCA2_89 ATATATGTAAATGTAGTATAGGGAAGCTTCATAAGTCAGTCTCATCTGCAAATACTTGTGGGATTTTTAGCACAGCAAGTGGAAAATCTGTCCA
>520999_BRCA2_90 AAAATCTGTCCAGGTATCAGATGCTTCATTACAAAACGCAAGACAAGTGTTTTCTGAAATAGAAGATAGTACCAAGCAAGTCTTTTCCAAAGTATTGTTTAAAAGTAAC
>520999_BRCA2_91 TTTTCCAAAGTATTGTTTAAAAGTAACGAACATTCAGACCAGCTCACAAGAGAAGAAAATACTGCTATACGTACTCCAGAACATTTAATATCCCAAAAAGGCTTTTCATATAAT
>520999_BRCA2_92 ATTTAATATCCCAAAAAGGCTTTTCATATAATGTGGTAAATTCATCTGCTTTCTCTGGATTTAGTACAGCAAGTGGAAAGCAAGTTTCCATTTTAGAAAGTT
>520999_BRCA2_93 ATTTTAGAAAGTTCCTTACACAAAGTTAAGGGAGTGTTAGAGGAATTTGATTTAATCAGAACTGAGCATAGTCTTCACTATTCACCTACGTCTAGACAAAATGTATCAAAAATACTT
>520999_BRCA2_94 AAATGTATCAAAAATACTTCCTCGTGTTGATAAGAGAAACCCAGAGCACTGTGTAAACTCAGAAATGGAAAAAACCTGCAGTAAAGAATTTAAATTATCAAATAACTTAAAT
>520999_BRCA2_95 AAAAAACCTGCAGTAAAGAATTTAAATTATCAAATAACTTAAATGTTGAAGGTGGTTCTTCAGAAAATAATCACTCTATTAAAGTTTCTCCATATCTCTCTCAATTT
>520999_BRCA2_96 TATTAAAGTTTCTCCATATCTCTCTCAATTTCAACAAGACAAACAACAGTTGGTATTAGGAACCAAAGTGTCACTTGTTGAGAACATTCATGTTTTGGGAAAA
>520999_BRCA2_97 ATTCATGTTTTGGGAAAAGAACAGGCTTCACCTAAAAACGTAAAAATGGAAATTGGTAAAACTGAAACTTTTTCTGATGTTCCTGTGAAAACAAATATAGAAGTTT
>520999_BRCA2_98 AAAACAAATATAGAAGTTTGTTCTACTTACTCCAAAGATTCAGAAAACTACTTTGAAACAGAAGCAGTAGAAATTGCTAAAGCTTTTATGGAAGATGATGAACTGACAGATTCTAAA
>520999_BRCA2_99 AGATTCTAAACTGCCAAGTCATGCCACACATTCTCTTTTTACATGTCCCGAAAATGAGGAAATGGTTTTGTCAAATTCAAGAATTGGAAAAAGAAGAGGAGAGCC
>520999_CYP2D6_01 97 GCTGGGGACTAGGTACCCCATTCTAGCGGGGCACAGCACAAAGCTCATAGGGGGATGGGGTCACCAGGAAAGCAAAGACACCATGGTGGCTGGGCCGGGGCTGT
>520999_CYP2D6_02 98 TGGCTGGGCCGGGGCTGTCCAGTGGGCACCGAGAAGCTGAAGTGCTGCAGCAGGGAGGTGAAGAAGAGGAAGAGCTCCATGCGGGCCAGGGGCTCCCCGAGGCATGCACGGCGGCCTGTGGGGAGGGGAGGGGC
>520999_CYP2D6_03 99 GAGCCGGGCTCCCCACAGGCACCTGCTGAGAAAGGCAGGAAGGCCTCCGGCTTCACAAAGTGGCCCTGGGCATCCAGGAAGTGTTCGGGGTGGAAGCGGAAGGGCTT
>520999_CYP2D6_04 100 CGGAAGGGCTTCTCCCAGACGGCCTCATCCTTCAGCACCGATGACAGGTTGGTGATGAGTGTCGTTCCCTGGGCAGAAGATGCAGGGTGAGA
>520999_CYP2D6_05 101 GGGTGAGGAGGGCGCCAGGCCTACCTTAGGGATGCGGAAGCCCTGTACTTCGATGTCACGGGATGTCATATGGGTCACACCCAGGGGGACGATGTCCCCAAAGCGCTGCACCT
>520999_CYP2D6_06 102 ATGTCCCCAAAGCGCTGCACCTCATGAATCACGGCAGTGGTGTAGGGCATGTGAGCCTGGTCACCCATCTCTGGTCGCCGCACCTGCCCTATCACGTCGTCGATCTCCTGTTGGACAC
>520999_CYP2D6_07 103 GCATGTGAGCCTGGTCACCCATCTCTGGTCGCCGCACCTGCCCTATCACGTCGTCGATCTCCTGTTGGACACGGCCTGGACAGACATGCGTCCCCACAATGGGTCAGCACCCAGGGG
>520999_CYP2D6_08 104 GCCCCCGCCTGTACCCTTCCTCCCTCGGCCCCTGCACTGTTTCCCAGATGGGCTCACGCTGCACATCCGGATGTAGGATCATGAGCAGGAGGCCCCAGGCCAGCGT
>520999_CYP2D6_09 105 TAGGATCATGAGCAGGAGGCCCCAGGCCAGCGTGGTCGAGGTGGTCACCATCCCGGCAGAGAACAGGTCAGCCACCACTATGCACAGGTTCTCATCATTGAAGCTGCTCTCAGG
>520999_CYP2D6_10 106 CACCACTATGCACAGGTTCTCATCATTGAAGCTGCTCTCAGGGTTCCCCTTGGCCTGAGCAGGGCCGA
>520999_CYP2D6_11 107 AACCCACCACCCTTGCCCCCCACCGTGGCAGCCACTCTCACCTTCTCCATCTCTGCCAGGAAGGCCTCAGTCAGGTCTCGGGGGGGCTGGGCTGGGTCCCA
>520999_CYP2D6_12 108 CAGGAAGGCCTCAGTCAGGTCTCGGGGGGGCTGGGCTGGGTCCCAGGTCATCCTGTGCTCAGTTAGCAGCTCATCCAGCTGGGTCAGGAAAGCCTTTTGGAAGCGTAGGACCTTGCCAGCCAGCGCTGG
>520999_CYP2D6_13 109 CAGCCAGCGCTGGGATATGCAGGAGGACGGGGACAGCATTCAGCACCTACACCAGACAGAACGGGGTCTCAATCCCTCCTGTGCTCTGCGTTCACCTG
>520999_CYP2D6_14 110 TCCGCACCTCGCGCAGAAAGCCCGACTCCTCCTTCAGTCCCTCCTGAGCTAGGTCCAGCAGCCTGAGGAAGCGAGGGTCGTCGTACTCGAAGCGGCGCCCGCAGGTGAGGGAGGCGATCACGTTGCTCACGGCTTTGTCCAA
>520999_CYP2D6_15 111 GGCGCCCGCAGGTGAGGGAGGCGATCACGTTGCTCACGGCTTTGTCCAAGAGACCGTTGGGGCGAAAGGGGCGTCCTGGGGGTGGGAGATGCGGGTAAGGG
>520999_CYP2D6_16 112 CGTCCCCCGCCTTCCCAGTTCCCGCTTTGTGCCCTTCTGCCCATCACCCACCGGAGTGGTTGGCGAAGGCGGCACAAAGGCAGGCGGCCTCCTCGGTCACCCA
>520999_CYP2D6_17 113 GCGAAGGCGGCACAAAGGCAGGCGGCCTCCTCGGTCACCCACTGCTCCAGCGACTTCTTGCCCAGGCCCAAGTTGCGCAAGGTGGAGACGGAGAAGCGCCTCTGCTCGCGCCACGCGGGCCCATAGCG
>520999_CYP2D6_18 114 AGACGGAGAAGCGCCTCTGCTCGCGCCACGCGGGCCCATAGCGCGCCAGGAACACCCCTGGGGGTGGGACGGGCACGTGCGCGTGGCCATGAAGG
>520999_CYP2D6_19 115 TCCCCACCGCTGCTTGCCTTGGGAACGCGGCCCGAAACCCAGGATCTGGGTGATGGGCACAGGCGGGCGGTCGGCGGTGTCCTCGCCGTGGGTCACCAGCGCCTCGCGCACGGCCGC
>520999_CYP2D6_20 116 GGCCCGAAACCCAGGATCTGGGTGATGGGCACAGGCGGGCGGTCGGCGGTGTCCTCGCCGTGGGTCACCAGCGCCTCGCGCACGGCCGCCAGCCCATTGAGCACGACCACCGGCGTCCAGGCCAG
>520999_CYP2D6_21 117 CAGGCCAGCTGCAGGCTGAACACGTCCCCGAAGCGGCGCCGCAACTGCAGAGGGAGGGTCAGGGCCTCTTGTCAAGCCAGGATCC
>520999_CYP2D6_22 118 CCACCACCCATGTTTGCTGGTGGTGGGGCATCCTCAGGACCTCTGCCGCCCTCCAGGACCTCCTCCCTCACCTGGTCGAAGCAGTATGGTGTGTT
>520999_CYP2D6_23 119 AGTATGGTGTGTTCTGGAAGTCCACATGCAGCAGGTTGCCCAGCCCGGGCAGTGGCAGGGGGCCTGGTGGGTAGCGTGCAGCCCAGCGTTGGCGCCGGTGCATCA
>520999_CYP2D6_24 120 CCGGTGCATCAGGTCCACCAGGAGCAGGAAGATGGCCACTATCACGGCCAGGGGCACCAGTGCTTCTAGCCCCATACCTGCCTCACTAC
>520999_DPYD_01 TTTAAATTTCACACATAGCAACAGAAAATGCTTTCTGCCGTAAAAACAAGAAGAAACATGTCTCATAGCATTCTAATTCCAGCAGGATTCTTACCTGGTAGCCAGAATCATTA
>520999_DPYD_02 ATTCTTACCTGGTAGCCAGAATCATTACAGGTCATGTAGCATTTACCACAGTTGATACACATTTCTTCATCAATCATAGCCACAACTTGCTCTACGTTGCTCAATTC
>520999_DPYD_03 TACGTTGCTCAATTCACCAAATGTTCCAAGGTACTGCAGTGCTTTTCCTATTACATCCTAAAAATA
>520999_DPYD_04 TAAAAATAGCCACTGAATTACTTAGCAAGCTCATTTTAAAACATTTTCATGTAATAATTAATAT
>520999_DPYD_05 AAGAATAACACAGGAGATTTAAGCACATACCTTGTCCATGAGTTCAGCTATACGTGGAACTGGTTTCCCTTT
>520999_DPYD_06 GTTTCCCTTTCTGGTGACTCACAGTAGCTGGACTCTGTCCATCCCAGTCTTGTAGTTCTTCAATGCTTTTCAGATAAAGCAGGGCTTTGAGGCCAGTGCAGTAGTCTTCGATCACAGTGAAAT
>520999_DPYD_07 ATCACAGTGAAATCCTGATTCTGAATGGCACTGCATACCTAGAAAAGACAGAGCAGTCAACCAA
>520999_DPYD_08 TGATTTTTCAGCAACCTCCAAGAAAGCACAATGCAAGAAGTGGGCAACACCTACCAGACACTCCTCCATATGTAGTTCGCTTTGCAATCCCCACTGCTGGCCAAGGTGT
>520999_DPYD_09 GCCAAGGTGTGCCATCAGATTTTAATCCCATCAGACCTGAGACAGTGTTGGTGGCTGTAACGCCATTGGCACCACCTATGCAAGACACATCAACATTTTCAT
>520999_DPYD_10 TTTTAGATGTTAAATCACACTTACGTTGTCTGGAAAGTCAGCCTTTAGTTCAGTGACACTTTGACACCAATATGCAGCCGTTTTCTCACTGATGAGCTCAATATTCA
>520999_DPYD_11 AGCTCAATATTCAGAAAGGAGCTTTGTCCAGGGCCATACATGGGGCCAGAGGTGGTTCCCCGGATGATTCTGGGGGAAACATTTGTCACAATGTCCTGATGAAAGAGTAAAGATATT
>520999_DPYD_12 TTACCTTATCAAGAGAGAAAGTTTTGGTGAGGGCAAAACCCCATCCAGCTTCAAAAGCTCTTCGAATCATTGATGTGCTGGTGGCTGGAGTTGCGCTAGCAAGACCAAAAGGATTTATAAA
>520999_DPYD_13 ATTTATAAACTTCAATCCGGCCATTTCTACACTAATGTCCACCAGATCAATAGGAGTGTAAAAGAGGGGTAGTTCAGGCTTGGCAGAAACGGAAGCTCCATATTGTGACTGCAAAATACAAA
>520999_DPYD_14 AAATAAAAAAATACATTATAAATAAATATATTTAAGAGTAAACTACTCACCTATTCCAATGAAAGCAGCTTTGTAGCCTTTTTCTTTCAAAGTGCTAAGA
>520999_DPYD_15 TTTTTCTTTCAAAGTGCTAAGAGTCATTTCATTCACTGAAAGGCTTTTACCGCAAATTATCTATAAGAAACAATATTTTGCATAAGAAAATTTGGCATATGATTAATTAAAATCTTAATATTTAACATCAAAAAGAATGAAAA
>520999_DPYD_16 TTACTCCTTTCTTTTTGAGCAGTACACAGATAGGTGTTTTTTTCATTTACCTTTACACCAAGGTCCTTCATTAGCTCAATCTCAAAATTCACTACATCATACGGCAGCC
>520999_DPYD_17 AAAATTCACTACATCATACGGCAGCCGGAACTGAGGAATTTCAGAAGTACTGAAAAGAAAGGAGAAAGAAAAACA
>520999_DPYD_18 GGGATGTCACGTGTATATCATACATACCTCAGTAGCAAATTGCTGCAATCCACCAATATTAATGGGTCCCTCTTCAGTGGCATATAAATTGCATCCACCTACACAAAGATCAGAGGTTGGA
>520999_DPYD_19 AGGTTGGACATACCATTCCACAAGTCAGACCAAGTGGGTTGTCAGAAAATATCATCTTAGCAGCTCCATAATAGTTCTGCAAAATTAATACAAAATAAAATTTTACTACTTAAAAATATACTTTAAA
>520999_DPYD_20 ATAATAGAGAACAAGATCAAATACTGTTATTTTCATTTGCAGAGTTAAATCTGAATTTACCTTGTTTGCAATACTTGTGATGAATGATTTAATATCAAGATTAGTTGGACAGCTCTTCTGACACGGG
>520999_DPYD_21 ATTTAATATCAAGATTAGTTGGACAGCTCTTCTGACACGGGGCATCTGCACATTTCAGGCATCTAGGAAATAAAATAACTATGTTAAGAAACTACAAGATAAGTGAGATAATCTATTTT
>520999_DPYD_22 TAATTTTCAGCATGAAATAGTGTATCAGTGGTACTTACAAAGCAGTTCTTATCAGGATTTCTTTTCCAATGTTTCTTGTCTAATTTCTTGGCCGAAGTGGAACGCAGAGTTGCATG
>520999_DPYD_23 AACGCAGAGTTGCATGAGTTTGTGTTCGAGGATTTAAAGCCAGGATACTCTAAAGACAGCATAAACAATGTGTAAATATAT
>520999_EGFR_01 CCCTTGTCTCTGTGTTCTTGTCCCCCCCAGCTTGTGGAGCCTCTTACACCCAGTGGAGAAGCTCCCAACCAAGCTCTCTTGAGGATCTTGAAGGAAACTGAATTCAAAAA
>520999_EGFR_02 TGAATTCAAAAAGATCAAAGTGCTGGGCTCCGGTGCGTTCGGCACGGTGTATAAGGTAAGGTCCCTGGCACAGGCCTCTGGGCTGGGCCGCAGGGCCTCTCATGGTCTGGTGGGGAG
>520999_EGFR_03 GTTAACGTCTTCCTTCTCTCTCTGTCATAGGGACTCTGGATCCCAGAAGGTGAGAAAGTTAAAATTCCCGTCGCTATCAAGGAATTAAGAGAAGCAACATCTCCGAAAGCCAACAAGGAAATCCTC
>520999_EGFR_04 AATTAAGAGAAGCAACATCTCCGAAAGCCAACAAGGAAATCCTCGATGTGAGTTTCTGCTTTGCTGTGTGGGGGTCCATGG
>520999_EGFR_05 CACACTGACGTGCCTCTCCCTCCCTCCAGGAAGCCTACGTGATGGCCAGCGTGGACAACCCCCACGTGTGCCGCCTGCTGGGCATCTGCCTCACCTCCACCGTGCAG
>520999_EGFR_06 CACCGTGCAGCTCATCACGCAGCTCATGCCCTTCGGCTGCCTCCTGGACTATGTCCGGGAACACAAAGACAATATTGGCTCCCAGTACCTGCTCAACTGGTGTGTGCAGATC
>520999_EGFR_07 AATATTGGCTCCCAGTACCTGCTCAACTGGTGTGTGCAGATCGCAAAGGTAATCAGGGAAGGGAGATACGGGGAGGGGAGATAAGGAGCCAGGATCCTCACATGCGGTCTGCG
>520999_EGFR_08 TCCCTCACAGCAGGGTCTTCTCTGTTTCAGGGCATGAACTACTTGGAGGACCGTCGCTTGGTGCACCGCGACCTGGCAGCCAGGAACGTACTGGTGAAAACACCGCAGCATGTCAA
>520999_EGFR_09 ACCGCAGCATGTCAAGATCACAGATTTTGGGCTGGCCAAACTGCTGGGTGCGGAAGAGAAAGAATACCATGCAGAAGGAGGCAAAGTAAGGAGGTGGCTTTAGGTCAGCCAGCATTTTCCTGACACCAGG
>520999_ERBB2_01 CCTTGTCCCCAGGAAGCATACGTGATGGCTGGTGTGGGCTCCCCATATGTCTCCCGCCTTCTGGGCATCTGCCTGACATCCACGGTGCAGCTGGTGACACA
>520999_ERBB2_02 CTGGTGACACAGCTTATGCCCTATGGCTGCCTCTTAGACCATGTCCGGGAAAACCGCGGACGCCTGGGCTCCCAGGACCTGCTGAACTGGTGTATGCAGATTGCCAAGGTATGCACCTGGGCTCTTTGCAG
>520999_FOXL2_01 AAATAAAGAAGTCCGTGTTAAAAGAAGGAACACAAAATTTATTCGGGAATCGACAAGGCAAAAAACAAAAACAAAACAAAAAAACACAACAAAAGTGCTCTAGTTCTCTCTAGAAAATTTGGTCCCCCAAA
>520999_FOXL2_02 AAAATTTGGTCCCCCAAACAACAAGCTACAGTACAACCAGGTCTATGGTTTTCGGGCCGGGCCGGCTCCGGGCCACAAGACCGCCTAGGTCGGCCGCTGCCGGGTTTCACATTTCTCCTTC
>520999_FOXL2_03 CCGCTGCCGGGTTTCACATTTCTCCTTCCCAAGGTGGGAGAAGCAGGAGGTTTGAAAAACAAAAAGCAGGGAGGACGAGCCGTCCCAGCAGCGTGGGCCAGGCAGGCAGT
>520999_FOXL2_04 CAGCAGCGTGGGCCAGGCAGGCAGTGATCTCCCTGCCTCCAGGACTTGCATCGAAAGATCCGGGGACATTTGTTTTTGATTTTTTTCTTCAGATAGGGAGAGGGTGAAA
>520999_FOXL2_05 GGACATTTGTTTTTGATTTTTTTCTTCAGATAGGGAGAGGGTGAAACTTCCCCAATTGGTAGACGAAACCATCTTTTATTGGATATATTCTCCTAACTCTGAACACAGCTTTTTGAAGGCCCAACAAAAA
>520999_FOXL2_06 ACAGCTTTTTGAAGGCCCAACAAAAACTCTAACGCAAATCTTCCAGAAGAGAAGATGAGGAATACTAAAGCTTTTGATTTTCATATTTGGATTTA
>520999_FOXL2_07 ATTTAGCAAACTCCAAGGCCACAATACTTCCCCGGTTGCCCGGTGAATTTTTTTTCCTTTTTTTTTTTTTAAATACTCTCTTAAAAA
>520999_FOXL2_08 CCGGTGAATTTTTTTTCCTTTTTTTTTTTTTAAATACTCTCTTAAAAAGTTCCACCGATCTTTCAAACAAAACATTAGCCAGCCGCCGGGGCCCGGAGGTGCCCGAA
>520999_FOXL2_09 GCCGGGGCCCGGAGGTGCCCGAAGCGACGGGACTGATAGCGGAGGAAACGCAGCCTCCCTCCGCGCCCGCCCGCGGTGTAAACCGAGTACAGGCCGTGGAGCCAGGCTGCCCCGGCTCCCGCTGGGTCCCAACCCCCGCCCCGCCTAGTGGGCCCCGCGGCAAGCG
>520999_FOXL2_10 CCCCGGCTCCCGCTGGGTCCCAACCCCCGCCCCGCCTAGTGGGCCCCGCGGCAAGCGGCTTCTGAACAGCTTCAAGAGGGTTCGCGGAGCAAACACAC
>520999_FOXL2_11 CAAACACACGTATTGGTCCGTCCCTTTCTCGGGCAGCGCGGTCCCGCCATCAGTCCTGTCCGGCGCGTCTAGCCATGGACTGCACGGCAGTCGGGCGGGGAACGCGGAGAGCGAGCGCACC
>520999_FOXL2_12 GGGCGGGGAACGCGGAGAGCGAGCGCACCGACCTGTGAGAGAAGGCCAAGAGGTCTGCGCTGCCGACGCCCGGTCGCACCTCCGCCCCGGGCCCTTTCCGC
>520999_FOXL2_13 CCGACGCCCGGTCGCACCTCCGCCCCGGGCCCTTTCCGCGGTGAATTTGGGCAGGAGACGCTGGGGCTCCGGAAAGAGACGAGCCCAGTAGAAAGCGCGCAGAGAGGCAGCTTCAGGCCAGGGGAGTGCAAGGTCA
>520999_FOXL2_14 GCAGAGAGGCAGCTTCAGGCCAGGGGAGTGCAAGGTCACAGAGGTCAGGGAGGTGAGCACAGGAGGACATAAACTGAGGGGACAAAGAGGAGCGACAGGAGCTTA
>520999_FOXL2_15 GACAGGAGCTTAGGAAAGCGAAAAAGCACAGAGGGACCCTGGGCGCTGGCTCCAGAGGCGGGCCCAGAGGGTGTGAGGTCAGGCTGGCGGCGGCGTCGTCGGCTGCGACCGGGGCCGGCGTCGCGCGTCC
>520999_FOXL2_16 GCGGCGGCGTCGTCGGCTGCGACCGGGGCCGGCGTCGCGCGTCCCTGCATCCTCGCATCCGTCTGCACCGGCATGCGGTGGGCTCTCAGAGATCGAGGCGCGAATGCAGCGCGCCG
>520999_FOXL2_17 GCGCGAATGCAGCGCGCCGGTCTTGCTGTCGTGGTCCCAGTAAGAGCAATGCATCATGGCGAGCTCGGGCTGCCGGGCACAAGCGAACTGCAGGCCCGGCGCACTGGTGGGCGCGGGCGCCGGGGGCGCGGCG
>520999_FOXL2_18 CCGGGCACAAGCGAACTGCAGGCCCGGCGCACTGGTGGGCGCGGGCGCCGGGGGCGCGGCGGTGGCTGGGCTGGCAGGGCTGAGCTGGCCCGGCGGCGGCGCGGCGGCCCCGTGGTGCGGTGGGGCAGGCGGCGGTGCGGCGGCC
>520999_FOXL2_19 GCGGCGGTGCGGCGGCCGCGTGCAGATGGTGTGCGTGCGGATGCGGGTGGGGGTGCGGCGGAGGCGGGGGTGCGGCCGGCGGGCCTCCCAGGCCATTGTACGAGTTCACTACGCCGGGGGGCAGCGC
>520999_FOXL2_20 CCGGGGGGCAGCGCCATGCTCTGCACGCGTGTGTACGGCCCGTACGAGGCGGCCGGGCCCGCCAGCCCCTTGACCACAGCGGCCGCGCCAGGGCTACCGGGGCCCGCGG
>520999_FOXL2_21 CGGCCGCGCCAGGGCTACCGGGGCCCGCGGCTGCAGCCGCAGCTGCTGCAGCCGCTGCGGCTGCCGCCATCTGGCAGGAGGCATAGGGCATGGGTGAGGGAGGCTGCGGTAGCGGCCACGAGTTGTT
>520999_FOXL2_22 GGTGAGGGAGGCTGCGGTAGCGGCCACGAGTTGTTGAGGAAGCCAGACTGCAGGTACTTGGGGGGCGCCAGGTAGCCGTAGCCGTCGGCCCCGGCGCCCGCCACGCCGCACCCGCCTGCGGCGCCTCCGGCCCCGA
>520999_FOXL2_23 GGGGGCGCCAGGTAGCCGTAGCCGTCGGCCCCGGCGCCCGCCACGCCGCACCCGCCTGCGGCGCCTCCGGCCCCGAAGAGCCCCTTGCCGGGCTGGAAGTGCGCGGGCGGCGGCCGGAAGGGCCTCTTCATGCGGCGGCGGCGC
>520999_FOXL2_24 GGCGGCGGCGCCGGTAGTTGCCCTTCTCGAACATGTCTTCGCAGGCCGGGTCCAGCGTCCAGTAGTTGCCCTTGCGCTCGCCGCCGCCCTCGCGCGGCACCTTGATGAAGCACTCGTTGAG
>520999_FOXL2_25 GCCGCCGCCCTCGCGCGGCACCTTGATGAAGCACTCGTTGAGGCTGAGGTTGTGGCGGATGCTATTTTGCCAGCCCTTCTTATTCTTCTCGTAGAACGGGAACTTCGCGATGATGTACTGGTAGATGCCG
>520999_FOXL2_26 TAGATGCCGGACAGCGTGAGCCTCTTCTCCGCGCTCTCGCGGATCGCCATGGCGATGAGCGCCACGTACGAGTACGGGGGCTTCTGCGCCGG
>520999_FOXL2_27 GGGGCTTCTGCGCCGGGTCCGGCTTCTCCGGGGCTGTCCCGCCGCCACCCCCACCGCCCTTGCCTGGGCTCGGCGGCGGCCCTTCTGGCTCCTTGACTGTGCGACCGGTCTCTGGGGCCAGCAGGGCCCCCGCCGCGTCCTCGG
>520999_FOXL2_28 GGGCCAGCAGGGCCCCCGCCGCGTCCTCGGGCTCGGGGTAGCTGGCCATCATGACAAAGCCGGCGCGCCGCGGCCGGGCCGCCTCTGCTCTCCGCTCCAGGCGCTGGCGC
>520999_FOXL2_29 GGCGCGCCGCGGCCGGGCCGCCTCTGCTCTCCGCTCCAGGCGCTGGCGCGGCAAAGAGTTGGGGCGCACGAGTCCGCTTACGGCCAAGTCTCAAACTTCTGGAGACTGCGGATGCCGCCCGCG
>520999_FOXL2_30 CCGCCCGCGCTTGCTTGCTGGAGGCCTGTCGCTGCTCTCCCCTCTCCTTCCCCTTCCCCTAGGGAGCGGCCGGCGGGAGTGGAGCTCAGCCTCTGGCCATGGGGAGTCCGCC
>520999_FOXL2_31 GGGAGTCCGCCCAACAGAGAGGGGCTCCGGCCTCGCCGCCCCTCCCCGCTCAGGCCAGTCCCCGCCTTGGTGGGTTTTCTTTTCTGCGCTCTTCCCCTCCCCCCGCCCCCCG
>520999_FOXL2_32 CCTCCCCCCGCCCCCCGGTTTCCCGAAGCACGACCCGCGTCTCTGGCGGAGCTGCCTCCTGGAGTCCCTAGTGCGCCAGGAGCCTCGCTCTGTTCTGATTCGTATGGG
>520999_KIT_01 TGACATATGGCCATTTCTGTTTTCCTGTAGCAAAACCAGAAATCCTGACTTACGACAGGCTCGTGAATGGCATGCTCCAATGTGTGGCAGCAGGATTCCCAGAGCCCACAATAGATTGGTATTTTT
>520999_KIT_02 ATTGGTATTTTTGTCCAGGAACTGAGCAGAGGTGAGATGATTATTTTTGGCACTGCTTATAATGCAGAG
>520999_KIT_03 TATTTATTTATTTTCCTAGAGTAAGCCAGGGCTTTTGTTTTCTTCCCTTTAGATGCTCTGCTTCTGTACTGCCAGTGGATGTGCAGACACTAAACTCATCTGGGCCACCGTTTGGAAA
>520999_KIT_04 GGCCACCGTTTGGAAAGCTAGTGGTTCAGAGTTCTATAGATTCTAGTGCATTCAAGCACAATGGCACGGTTGAATGTAAGG
>520999_KIT_05 AATGTAAGGCTTACAACGATGTGGGCAAGACTTCTGCCTATTTTAACTTTGCATTTAAAGGTAACAACAAAGGTATATTTCTTTTTAATCCAATTTAAGGGGATGTTTA
>520999_KIT_06 TTGTGATTCCACATTTCTCTTCCATTGTAGAGCAAATCCATCCCCACACCCTGTTCACTCCTTTGCTGATT
>520999_KIT_07 TCCTTTGCTGATTGGTTTCGTAATCGTAGCTGGCATGATGTGCATTATTGTGATGATTCTGACCTACAAATATTTACAGGTAACCATTTATTTGTTCT
>520999_KIT_08 AGACAATAATTATTAAAAGGTGATCTATTTTTCCCTTTCTCCCCACAGAAACCCATGTATGAAGTACAGTGGAAGGTTGTTGAGGAGATAAATGGAAACAATTATGTTTA
>520999_KIT_09 ATAAATGGAAACAATTATGTTTACATAGACCCAACACAACTTCCTTATGATCACAAATGGGAGTTTCCCAGAAACAGGCTGAGTTTTGGTCAGTATGAAACAGGGGCTTTCCATGTCACCTTTTT
>520999_KIT_10 ACCAGCACCATCACCACTTACCTTGTTGTCTTCCTTCCTACAGGGAAAACCCTGGGTGCTGGAGCTTTCGGGAAGGTTGTTGAGGCAACTGCTTATGGCTTAATTAAGTCAGATGCGG
>520999_KIT_11 CTTAATTAAGTCAGATGCGGCCATGACTGTCGCTGTAAAGATGCTCAAGCGTAAGTTCCTGTATGGTACTGCATGCGCTTGACATCAGTTT
>520999_KIT_12 CCAGTTGTGCTTTTTGCTAAAATGCATGTTTCCAATTTTAGCGAGTGCCCATTTGACAGAACGGGAAGCCCTCATGTCTGAACTCAAAGTCCTGAGTTACCTTGGTAATCACATGAATATT
>520999_KIT_13 TAATCACATGAATATTGTGAATCTACTTGGAGCCTGCACCATTGGAGGTAAAGCCGTGTCCAAGCTGCCTTTTATTGTCTGTCAGGTTATCAAAACATGACATTTTAATATGATTTT
>520999_KIT_14 GGTATTTTTATGGGAGGCAGAATTAATCTATATATCTCACCTTCTTTCTAACCTTTTCTTATGTGCTTTTAGGGCCCACCCT
>520999_KIT_15 TTTTAGGGCCCACCCTGGTCATTACAGAATATTGTTGCTATGGTGATCTTTTGAATTTTTTGAGAAGAAAACGTGATTCATTTATTTGTT
>520999_KIT_16 ATTTATTTGTTCAAAGCAGGAAGATCATGCAGAAGCTGCACTTTATAAGAATCTTCTGCATTCAAAGGAGTCTTCCTGGTAAGACTGATTTACATAAATAGTTAGCTGTT
>520999_KIT_17 TAATAGTGTATTCACAGAGACTTGGCAGCCAGAAATATCCTCCTTACTCATGGTCGGATCACAAAGATTTGTGATTTT
>520999_KIT_18 ATTTGTGATTTTGGTCTAGCCAGAGACATCAAGAATGATTCTAATTATGTGGTTAAAGGAAACGTGAGTACCCATTCTCTGCTTGACAGTCCTGCAAAGGATTTTTA
>520999_KIT_19 TATAAGAATATCTTCTGTTCAATTTTGTTGAGCTTCTGAATTAACATTATTGACTCTGTTGTGCTTCTATTACAGGCTCGACTACCTGTGAAGTGGATGGCACCTGAAAGCATTTTCAACTGTGTATACA
>520999_KIT_20 CATTTTCAACTGTGTATACACGTTTGAAAGTGACGTCTGGTCCTATGGGATTTTTCTTTGGGAGCTGTTCTCTTTAGGTAAAATGATCCTTGCCAAAGACAACTTCATTA
>520999_KRAS_01 ATCTGTATTTATTTCAGTGTTACTTACCTGTCTTGTCTTTGCTGATGTTTCAATAAAAGGAATTCCATAACTTCTTGCTAAGTCCTGA
>520999_KRAS_02 AATAAAAGGAATTCCATAACTTCTTGCTAAGTCCTGAGCCTGTTTTGTGTCTACTGTTCTAGAAGGCAAATCACATTTATTTCCTACTA
>520999_KRAS_03 ATTTATTTCCTACTAGGACCATAGGTACATCTTCAGAGTCCTTAACTCTTTTAATTTGTTCTCTGGGAAAGAAAAAAAAGTTATAGCACAGTCATTAGTAACACAAATAT
>520999_KRAS_04 TTATTATATTCAATTTAAACCCACCTATAATGGTGAATATCTTCAAATGATTTAGTATTATTTATGGCAAATACACAAAGAAAGCCCTCCCCAGTCCTCAT
>520999_KRAS_05 CAGTCCTCATGTACTGGTCCCTCATTGCACTGTACTCCTCTTGACCTGCTGTGTCGAGAATATCCAAGAGACAGGTTTCTCCATCAATTACTACTTGCTTCCTGTAGGAATCCTGAGAAGGGAGAAA
>520999_KRAS_06 CAGTAATATGCATATTAAAACAAGATTTACCTCTATTGTTGGATCATATTCGTCCACAAAATGATTCTGAATTAGCTGTATCGTCAAGGCACTCTTGCCTACGCCA
>520999_KRAS_07 TTGCCTACGCCACCAGCTCCAACTACCACAAGTTTATATTCAGTCATTTTCAGCAGGCCTTATAATAAAAATAATGAAAATGTGACTATATTAGAACATGTCACACATAAGGTTAATA
>520999_MET_01 GTTCACTGCATATTCTCCCCACAGATAGAAGAGCCCAGCCAGTGTCCTGACTGTGTGGTGAGCGCCCTGGGAGCCAAAGTCCTTTCATCTGTAAAGGACCGGTTCATCAACTT
>520999_MET_02 GGTTCATCAACTTCTTTGTAGGCAATACCATAAATTCTTCTTATTTCCCAGATCATCCATTGCATTCGATATCAGTGAGAAGGCTAAAGGAAACGAAAGATGGTTTTATGTTTTT
>520999_MET_03 CTGAATGATGACATTCTTTTCGGGGTGTTCGCACAAAGCAAGCCAGATTCTGCCGAACCAATGGATCGATCTGCCATGTGTGCATTCCCTATCAAATATGTCAACGACTTCTTCAACAAGATCGTCAACAAAAA
>520999_MET_04 CCTATCAAATATGTCAACGACTTCTTCAACAAGATCGTCAACAAAAACAATGTGAGATGTCTCCAGCATTTTTACGGACCCAATCATGAGCACTGCTTTAATAGGGTAAGT
>520999_MET_05 CTTTAATAGGGTAAGTCACATCAGTTCCCCACTTATAAACTGTGAGGTATAAATTAGAAATAAGTATCAGTCTCAAAAAGAATATCCAGGGCTTCTTTTGTG
>520999_MET_06 TGAGGTATAAATTAGAAATAAGTATCAGTCTCAAAAAGAATATCCAGGGCTTCTTTTGTGCTTTGTAAATGGTGTTTATCCAAAATAGTTGCAGATTTTTTCCAAGAAAATT
>520999_MET_07 ATTTTTTCCAAGAAAATTGAGGAATTGAATCTTCATTTACACCTAAAATTATATCTTTAAAATGTAAATGGTAACTAAAAGAAAAATGTTTTTACAATT
>520999_MET_08 AGGTGATTAAATTGAATCCCTCTCTTACAGTACTTGGTGGAAAGAACCTCTCAACATTGTCAGTTTTCTATTTTGCTTTGCCAGTGGTGGGAGCACAATAA
>520999_MET_09 ACAATAACAGGTGTTGGGAAAAACCTGAATTCAGTTAGTGTCCCGAGAATGGTCATAAATGTGCATGAAGCAGGAAGGAACTTTACAGTGGTAAGTCCTTTGAGCAATGGTTCTACT
>520999_MET_10 TTATTATCCTGAAGGCAGTTATGCCATTTGTAGAATGGTAATAACCAGTTGGTATTTGGGACCCAAAGTGCTACAACCTGTGTAGTACAAATAT
>520999_MET_11 TACAAATATCTATCATGGCTAAATGCTGACTTTTCTTTATTTGTCATTTTTAGTGGAAGCAAGCAATTTCTTCAA
>520999_MET_12 TCTCCTGGGGCCCATGATAGCCGTCTTTAACAAGCTCTTTCTTTCTCTCTGTTTTAAGATCTGGGCAGTGAATTAGTTCGCTACGATGCAAGAGTACACACTCCTCATTTG
>520999_MET_13 TACACACTCCTCATTTGGATAGGCTTGTAAGTGCCCGAAGTGTAAGCCCAACTACAGAAATGGTTTCAAATGAAT
>520999_MET_14 AGAAATGGTTTCAAATGAATCTGTAGACTACCGAGCTACTTTTCCAGAAGGTATATTTCAGTTTATTGTTCTGAGAAATA
>520999_MET_15 TAAATTTGACAAAAGTATTCACTGTTCCATAATGAAGTTAATGTCTCCACCACTGGATTTCTCAGGAATCACTGACATAGGAGAAGTTTCCCAATTT
>520999_MET_16 ATAGGAGAAGTTTCCCAATTTCTGACCGAGGGAATCATCATGAAAGATTTTAGTCATCCCAATGTCCTCTCGCTCCTGGGAATCTGCCTGCGAAGTGAAGGGTCTCCGCT
>520999_MET_17 GGTCTCCGCTGGTGGTCCTACCATACATGAAACATGGAGATCTTCGAAATTTCATTCGAAATGAGACTCATGTAAGTTGACTGCCAAGCTTACTAACTGGCAAACTA
>520999_MTHFR_01 CCCGCAGCCTGGCCTGCAGCTGGGGTCAGGCCAGGGGCAGGGGATGAACCAGGGTCCCCACTCCAGCATCACTCACTTT
>520999_MTHFR_02 ACTCACTTTGTGACCATTCCGGTTTGGTTCTCCCGAGAGGTAAAGAACGAAGACTTCAAAGACACTTTCTTCACTGGTCAGCTCCTCCCCCCACATCTTCAGCAGCTCCTCCTTGGGGGACTTGCTCTTCAGGTA
>520999_MTHFR_03 GGACTTGCTCTTCAGGTAGAAGAGGTAGTAGTCCTTCAGCTCCCCAAAGGCAGGGGAAGAGGAATTGCCCCTGGCAGAGGGGTGCCCAGAGGTCAGGGCACACTCCTGACAGAGGGCAGTGCCAC
>520999_MTHFR_04 CCCCCAGCCTGTGCGAGGACGGTGCGGTGAGAGTGGGGTGGAGGGAGCTTATGGGCTCTCCTGGGCCCCTCACCTGGATGGGAAAGATCCCGGGGACGATGGGGCAAGTGATGCCCATG
>520999_MTHFR_05 GCCCCTCACCTGGATGGGAAAGATCCCGGGGACGATGGGGCAAGTGATGCCCATGTCGGTGCATGCCTTCACAAAGCGGAAGAATGTGTCAGCCTCAAAGAAAAGCTGCGTGATGATGAAATCGGCTCCC
>520999_MTHFR_06 GTGATGATGAAATCGGCTCCCGCAGACACCTTCTCCTTCAAGTGCTTCAGGTCAGCCTCAAAGCTCCCTGCTTCGGGGTGGCCTTTGGGGTAAC
>520999_MTHFR_07 CTCCCTGCTTCGGGGTGGCCTTTGGGGTAACCTGCCAATAGGGATGACAGTCAGGAGAGGCTGGCCTCCACC
>520999_NRAS_01 ACAAATGCTGAAAGCTGTACCATACCTGTCTGGTCTTGGCTGAGGTTTCAATGAATGGAATCCCGTAACTCTTGGCCAGTTCGTGGGCTTGTTTTGTATCAACTGTCCTTGTTGG
>520999_NRAS_02 TCCTTGTTGGCAAATCACACTTGTTTCCCACTAGCACCATAGGTACATCATCCGAGTCTTTTACTCGCTTAATCTGCTCCCTAAAAACGGGAATATATTAT
>520999_NRAS_03 TTTCAGAGAAAATAATGCTCCTAGTACCTGTAGAGGTTAATATCCGCAAATGACTTGCTATTATTGATGGCAAATACACAGAGGAAGCCTTCGCCTGTCCTCATGTATTGGTCTCTCATG
>520999_NRAS_04 TCCTCATGTATTGGTCTCTCATGGCACTGTACTCTTCTTGTCCAGCTGTATCCAGTATGTCCAACAAACAGGTTTCACCATCTATAA
>520999_NRAS_05 CCATCTATAACCACTTGTTTTCTGTAAGAATCCTGGGGGTGTGGAGGGTAAGGGGGCAGGGAGGGAGGGAAGTTCAATTTTTATTAAAAACCACAGGGAATG
>520999_NRAS_06 ATCAGGTCAGCGGGCTACCACTGGGCCTCACCTCTATGGTGGGATCATATTCATCTACAAAGTGGTTCTGGATTAGCTGGATTGTCAGTGCGCTTTTCCCAACACCACCTGCTCCAA
>520999_NRAS_07 CACCTGCTCCAACCACCACCAGTTTGTACTCAGTCATTTCACACCAGCAAGAACCTGTTGGAAACCAGTAATCAGGGTTAATTGGC
>520999_PDGFRA_01 CTTTGGTAATTCACCAGTTACCTGTCCTGGTCATTTATAGAAACCGAGGTATGAAATTCGCTGGAGGGTCATTGAATCAATCAGCCCAGATGGACATGAATATATTTATGT
>520999_PDGFRA_02 CAGATGGACATGAATATATTTATGTGGACCCGATGCAGCTGCCTTATGACTCAAGATGGGAGTTTCCAAGAGATGGACTAGTGCTTGGTAAGTTCCATGGGGTAACCTCCCAAGACTCCCTTTT
>520999_PDGFRA_03 GGACTGATATGTGATTTATTCTTTCAACAGCCACGGCCAGATCCAGTGAAAAACAAGCTCTCATGTCTGAAC
>520999_PDGFRA_04 TCATGTCTGAACTGAAGATAATGACTCACCTGGGGCCACATTTGAACATTGTAAACTTGCTGGGAGCCTGCACCAAGTCAGGTGGGCTCACTGACCTGGAGTGAGGATTTTCACTGGACACATGT
>520999_PDGFRA_05 ATTTCTTCCTTTTCCATGCAGTGTGTCCACCGTGATCTGGCTGCTCGCAACGTCCTCCTGGCACAAGGAAAAATTGTGAAGATCTGTGACTTTGGCCTGGCCAGAGACATCATGCAT
>520999_PDGFRA_06 CAGAGACATCATGCATGATTCGAACTATGTGTCGAAAGGCAGTGTACGTCCTCACTTCCCTCACTGGTCAGGCTCATCCTCCTTCACTTTAATCTCTAAA
>520999_PIK3CA_01 TATATAATAGCTTTTCTTCCATCTCTTAGGAAACTCCATGCTTAGAGTTGGAGTTTGACTGGTTCAGCAGTGTGGTAAAGTTCCCAGATATGTCAGTGATTGAAGAGCATGCCAATT
>520999_PIK3CA_02 TGATTGAAGAGCATGCCAATTGGTCTGTATCCCGAGAAGCAGGATTTAGCTATTCCCACGCAGGACTGGTAAGGCAAATCACTGAGTTTATTAAGTATCAATTATAATCTGT
>520999_PIK3CA_03 TTTTCTCTGTTTAAAATGTTTTGGTGTTCTTAATTTATTCAAGACATTTTGTATCTGCATATATCAAACTATAACATAATTTCTTATTTTTGAAAGCTGTTT
>520999_PIK3CA_04 TATAACATAATTTCTTATTTTTGAAAGCTGTTTCATATAGATTTTGGACACTTTTTGGATCACAAGAAGAAAAAATTTGGTTATAAACGAGAACGTGTGCCATTTGTTTTGACACA
>520999_PIK3CA_05 TTTTGACACAGGATTTCTTAATAGTGATTAGTAAAGGAGCCCAAGAATGCACAAAGACAAGAGAATTTGAGAGGTGAGCTCGAGCAATTAAAAACACAAAATAAAGA
>520999_RET_01 CTAGAGAGTTAGAGTAACTTCAATGTCTTTATTCCATCTTCTCTTTAGGGTCGGATTCCAGTTAAATGGATGGCAATTGAATCCCTTTTTGATCATATCTACA
>520999_RET_02 TTTTTGATCATATCTACACCACGCAAAGTGATGTGTAAGTGTGGGTGTTGCTCTCTTGGGGTGGAGGTTACAGAAACA
>520999_TP53_01 GGTTCAAAGACCCAAAACCCAAAATGGCAGGGGAGGGAGAGATGGGGGTGGGAGGCTGTCAGTGGGGAACAAGAAGTGGAGAATGTCAGTCTGAGTCAGGCCCTTCTGTCTTGAACATGA
>520999_TP53_02 TCTGAGTCAGGCCCTTCTGTCTTGAACATGAGTTTTTTATGGCGGGAGGTAGACTGACCCTTTTTGGACTTCAGGTGGCTGTAGGAGACAGAAGCAGGGAGGAGAGATG
>520999_TP53_03 GGATGAGAATGGAATCCTATGGCTTTCCAACCTAGGAAGGCAGGGGAGTAGGGCCAGGAAGGGGCTGAGGTCACTCACCTGGAGTGAGCCCTGCTCCCCCCTGGCTCCTTCCCAGCCTGG
>520999_TP53_04 CCCTGCTCCCCCCTGGCTCCTTCCCAGCCTGGGCATCCTTGAGTTCCAAGGCCTCATTCAGCTCTCGGAACATCTCGAAGCGCTCACGCCCA
>520999_TP53_05 TTCAGCTCTCGGAACATCTCGAAGCGCTCACGCCCACGGATCTGCAGCAACAGAGGAGGGGGAGAAGTAAGTATATACACAGTACCTGAGTTAAAAGATGGTTCAAGTTACAATTGTTT
>520999_TP53_06 TTAGATTAGGTGTATTAAATCCATTTTCAACTTACAATATTTTCAACTTACGACGAGTTTATCAGGAAGTAACACCATCGTAAGTCAAGTAGCATCTGTAT
>520999_TP53_07 TAGCATCTGTATCAGGCAAAGTCATAGAACCATTTTCATGCTCTCTTTAACAATTTTCTTTTTGAAAGCTGGTCTGGTCCTTTAAAATATATATTATGGTAT
>520999_TP53_08 AACTTTCCACTTGATAAGAGGTCCCAAGACTTAGTACCTGAAGGGTGAAATATTCTCCATCCAGTGGTTTCTTCTTTGGCTGGGGAGAGGAGCTG
>520999_TP53_09 GGGAGAGGAGCTGGTGTTGTTGGGCAGTGCTAGGAAAGAGGCAAGGAAAGGTGATAAAAGTGAATCTGAGGCATAACTGCACCCTTGGTCTCCTCCACCGCTTCTTGT
>520999_TP53_10 CGCTTCTTGTCCTGCTTGCTTACCTCGCTTAGTGCTCCCTGGGGGCAGCTCGTGGTGAGGCTCCCCTTTCTTGCGGAGATTCTCTTCCTCTGTGCGCCGGTCTCTCCCAGGACAGGC
>520999_TP53_11 TGTGCGCCGGTCTCTCCCAGGACAGGCACAAACACGCACCTCAAAGCTGTTCCGTCCCAGTAGATTACCACTACTCAGGATAGGAAAAGAGAAGCAA
>520999_TP53_12 AAGAAATCGGTAAGAGGTGGGCCCAGGGGTCAGAGGCAAGCAGAGGCTGGGGCACAGCAGGCCAGTGTGCAGGGTGGCAAGTGGCTCCTGACCTGGAGTC
>520999_TP53_13 CTGACCTGGAGTCTTCCAGTGTGATGATGGTGAGGATGGGCCTCCGGTTCATGCCGCCCATGCAGGAACTGTTACACATGTAGTTGTAGTGGATGGTG
>520999_TP53_14 TTACACATGTAGTTGTAGTGGATGGTGGTACAGTCAGAGCCAACCTAGGAGATAACACAGGCCCAAGATGAGGCCAGTGCG
>520999_TP53_15 CCCAGAGACCCCAGTTGCAAACCAGACCTCAGGCGGCTCATAGGGCACCACCACACTATGTCGAAAAGTGTTTCTGTCATCCAAATACTCCACACGCAAATTTCCTTC
>520999_TP53_16 AATTTCCTTCCACTCGGATAAGATGCTGAGGAGGGGCCAGACCTAAGAGCAATCAGTGAGGAATCAGAGGCCTGGGGACCCTGGGCAACCAGCCCTGTCGTCTCTCCAGCCC
>520999_TP53_17 GTCTCTCCAGCCCCAGCTGCTCACCATCGCTATCTGAGCAGCGCTCATGGTGGGGGCAGCGCCTCACAACCTCCGTCATGTGCTGTGA
>520999_TP53_18 ATGTGCTGTGACTGCTTGTAGATGGCCATGGCGCGGACGCGGGTGCCGGGCGGGGGTGTGGAATCAACCCACAGCTGCACAGGGCAGGTCTTGGCCAGTT
>520999_TP53_19 GGGCAGGTCTTGGCCAGTTGGCAAAACATCTTGTTGAGGGCAGGGGAGTACTGTAGGAAGAGGAAGGAGACAGAGTTGAAAGTCAGGGCACAAGTGAA
>520999_TP53_20 ATGGAAGCCAGCCCCTCAGGGCAACTGACCGTGCAAGTCACAGACTTGGCTGTCCCAGAATGCAAGAAGCCCAGACGGAAACCGTAGCTGCC
>520999_TP53_21 CGTAGCTGCCCTGGTAGGTTTTCTGGGAAGGGACAGAAGATGACAGGGGCCAGGAGGGGGCTGGTGCAGGGGCCGCCGGTGTAGGAGCTGCTGGTGCAGGGGCCACGGGGGGAGCAG
>520999_TP53_22 GGCCACGGGGGGAGCAGCCTCTGGCATTCTGGGAGCTTCATCTGGACCTGGGTCTTCAGTGAACCATTGTTCAATATCGTCCGGGGACAGCATCAAAT
>520999_TP53_23 GGGGACAGCATCAAATCATCCATTGCTTGGGACGGCAAGGGGGACT
>520999_TP53_24 GGCAAGGGGGACTGTAGATGGGTGAAAAGAGCAGTCAGAGGACCAGGTCCTCAGCCCCCCAGCCCCCCAGCCCTCCAGGTCCCCAGCCCTCCAGGTCCCCAGCCCAACCCTTGTCCTTACCAGAACGTTGTTTTCAG
>520999_TP53_25 TTGTTTTCAGGAAGTCTGAAAGACAAGAGCAGAAAGTCAGTCCCATGGAATTTTCGCTTCCCACAGGTCTCTGCTAGGGGGCTGGGGTTGGGGTGGGGGTG
>520999_TP53_26 AATTTTCGCTTCCCACAGGTCTCTGCTAGGGGGCTGGGGTTGGGGTGGGGGTGGTGGGCCTGCCCTTCCAATGGATCCACTCACAGTTTCCATAGGTCTGAAAATGTTTC
>520999_TP53_27 AAAATGTTTCCTGACTCAGAGGGGGCTCGACGCTAGGATCTGACTGCGGCTCCTCCATGGCAGTGACCCGGAAGGCAGTCTGG
>520999_TPMT_01 121 ATTTTATTTTATCTATGTCTCATTTACTTTTCTGTAAGTAGATATAACTTTTCAAAAAGACAGTCAATTCCCCAACTTTTATGTCGTTCTTCAAAA
>520999_TPMT_02 122 TTTTATGTCGTTCTTCAAAAGCATCAACCTTCTCAAGACAACGTATATTGCATATTTTACCTGAAACAAGAAAGAGTAACATGTTAAAATA
>520999_TPMT_03 123 AAAAAAAAAAAACCCAACAACTTTACCTGGATGTTTAGTTGGATCATAAGAAAGAACACACAGGAGATACTGAAACTTCTTTCCCAGGAGGGAAAACATT
>520999_TPMT_04 124 TGAAACTTCTTTCCCAGGAGGGAAAACATTGTATCTGCATAGCTACAAAGAACACAAGAAGGTATTTGTTACATTTCTCTACACAGGCAAAGGCTGGAGGGACAAAAGGCAG
>520999_TPMT_05 125 AAAAAGTATAGTATACTAAAAAATTAAGACAGCTAAACAAAAAAAGAAAAATTACTTACCATTTGCGATCACCTGGATTGATGGCAACTAATGCT
>520999_TPMT_06 126 ATTGATGGCAACTAATGCTCCTCTATCCCAAATCATGTCAAATTTGCCAATATTTGTCCTACCAGAAAGAGAAAAAACATTTTATGGGAGAAAAATCAAATCTTTAAGAAGATGAGCAGCGTCCCC
>520999_TPMT_07 127 AATTATTTACCCAAATCAAAACAAACCTTAAATACTTTGGTTCCAGGAATTTCGGTGATTGGTTCTTCTGAGTAAGAAAGATTCTGCTCTGTAAAAAATTCTTGTATC
>520999_TPMT_08 128 TAAAAAATTCTTGTATCCCAAGTTCACTGATTTCCACACCAACTACACTGTGTCCCCGGTCTGCAAACCTGCATAAAATCATACATTTACACTTAAATTATGTTTTCAAAT
>520999_UGT1A1_01 TATTAAGAAACCTAATAAAGCTCCACCTTCTTTATCTCTGAAAGTGAACTCCCTGCTACCTTTGTGGACTGACAGCTTTTTATA
>520999_UGT1A1_02 AGCTTTTTATAGTCACGTGACACAGTCAAACATTAACTTGGTGTATCGATTGGTTTTTGCCATATATATATATATAAGTAGGAGAGGGC
>520999_UGT1A1_03 ATTGGTTTTTGCCATATATATATATATAAGTAGGAGAGGGCGAACCTCTGGCAGGAGCAAAGGCGCCATGGCTGTGGAGTCCCAGGGCGGACGCCCACTTGTCCTGGGCCTGCTGCTGTGTGTGCTGGGCC
>520999_UGT1A1_04 CCAGGGCGGACGCCCACTTGTCCTGGGCCTGCTGCTGTGTGTGCTGGGCCCAGTGGTGTCCCATGCTGGGAAGATACTGTTGATCCCAGTGGATGGCAGCCACTGGCTGAGCATGCTTGGGGCCATCCAGCA
>520999_UGT1A1_05 GGCCATCCAGCAGCTGCAGCAGAGGGGACATGAAATAGTTGTCCTAGCACCTGACGCCTCGTTGTACATCAGAGACGGAGCATTTTACA
>520999_UGT1A1_06 ACGGAGCATTTTACACCTTGAAGACGTACCCTGTGCCATTCCAAAGGGAGGATGTGAAAGAGTCTTTTGTTAGTCTCGGGCATAATGTTTTTGAGAATGATTCTTT
>520999_UGT1A1_07 TTTTTGAGAATGATTCTTTCCTGCAGCGTGTGATCAAAACATACAAGAAAATAAAAAAGGACTCTGCTATGCTTTTGTCTGGCTGTTCCCACTTACTGCACAACAAGGAGCTCATGGCCTCC
>520999_UGT1A1_08 TCATGGCCTCCCTGGCAGAAAGCAGCTTTGATGTCATGCTGACGGACCCTTTCCTTCCTTGCAGCCCCATCGTGGCCCAGTACCTGTCTCTGCCCACTGTATTCTTCTTGCATGCACTGCCATGCA
>520999_UGT1A1_09 ACTGCCATGCAGCCTGGAATTTGAGGCTACCCAGTGCCCCAACCCATTCTCCTACGTGCCCAGGCCTCTCTCCTCTCATTCAGATCACATGACCTTCCTGCAGCGGGTGAAGAA
>520999_UGT1A1_10 GGGTGAAGAACATGCTCATTGCCTTTTCACAGAACTTTCTGTGCGACGTGGTTTATTCCCCGTATGCAACCCTTGCCTCAGAATTCCTTCAGAGAGAGGTGACTGTCCAGGA
>520999_UGT1A1_11 TTCAGAGAGAGGTGACTGTCCAGGACCTATTGAGCTCTGCATCTGTCTGGCTGTTTAGAAGTGACTTTGTGAAGGATTACCCTAGGCCCATCATGCCCAATATGGTTTTTGTT
>520999_UGT1A1_12 CCAATATGGTTTTTGTTGGTGGAATCAACTGCCTTCACCAAAATCCACTATCCCAGGTGTGTATTGGAGTGGGACTTTTACATGCGTATATTCTTTCAGATGTATTACTTT
본 발명에 있어서, 상기 방법은 상기 증폭된 산물을 정제하는 단계를 추가로 포함할 수 있으며, 상기 정제는 당분야에서 통상적으로 사용하는 방법으로 수행될 수 있으며, 바람직하게는 비드를 사용하여 정제할 수 있다.
또한 본 발명은 암 유전자 또는 항암제 대사관련 유전자의 표적 부위를 증폭할 수 있는 상기 프라이머를 포함하는 것을 특징으로 하는, 시료의 DNA로부터 표적 부위를 증폭하기 위한 조성물을 제공한다.
상기 조성물은 상기 프라이머로 DNA를 증폭하는데 통상적으로 사용하는 성분들을 추가로 포함할 수 있다.
본 발명에 있어서, 상기 암 유전자 또는 항암제 대사관련 유전자는 상기 표 1에 기재된 유전자로부터 선택되는 1종 이상인 것일 수 있다.
본 발명에 있어서, 상기 표적 부위는 상기 표 1에 기재된 표적 부위로부터 선택되는 1종 이상인 것일 수 있다.
본 발명에 있어서, 상기 프라이머는 상기 표 2에 기재된 서열번호 1 내지 96의 프라이머로부터 선택되는 것일 수 있다.
본 발명은 또한 상기 조성물, 어댑터 및 바코드 프라이머를 포함하는 것을 특징으로 하는, 암 유전자 및 항암제 대사 관련 유전자 변이 진단 패널을 제공한다.
상기 어댑터는 바코드와 결합하는 기능을 하며, 10 내지 20개의 임의의 핵산으로 이루어질 수 있다.
상기 바코드 프라이머는 분석 대상 DNA의 단일 가닥 DNA 파편에 바코드를 부여하는 역할을 수행하며, 4개 내지 30개의 임의의 핵산으로 이루어질 수 있다.
본 발명에 있어서, 상기 진단 패널은, 상기 어댑터의 부착에 필요한 성분 및 바코드 프라이머로 서열을 증폭하는데 필요한 성분들을 추가로 포함할 수 있다.
본 발명에 있어서, 상기 최종 산물의 서열을 분석하여 상기 표적 부위에 대한 앰플리콘의 서열과 비교하여 유전자 변이를 검출하는 것은 통상의 차세대 염기서열 분석법에서 사용하는 방법으로 수행될 수 있다.
예를 들어, 대상 시료의 염기서열 데이터(sequence reads)를 레퍼런스 염기서열(reference Genome)과 비교하는 매핑(Mapping)을 통해 대상 시료와 레퍼런스 염기서열의 차이를 알아낸 후 이를 적당한 선택 기준을 정해 신뢰할 수 있는 염기서열 변이 정보만 추출(Variant Calling)하게 된다. 그런 다음 염기서열 변이 정보를 기존 데이터베이스(dbSNP)와 비교하여 이미 밝혀진 변이인지 새롭게 발견된 변이인지 판단한다. 그리고 그 변이가 아미노산의 변화를 가져올 것인지 아닌지, 또한 단백질 구조에 있어서 어떤 영향을 줄 것인지 예측하게 된다. 이 과정을 주석달기(Annotation)라고 한다. 추출한 변이에 관한 정보는 정보의 품질을 더 높이기 위하여 데이터베이스에 등재하거나 전장유전체연관분석 (Genome Wild Association Study; GWAS)과 통합 연구를 통해 질병의 원인 변이를 찾는 연구를 수행할 수도 있다.
본 발명의 암 세포의 유전체 DNA의 변이 및 약물 반응 유전자의 변이를 검출 및 진단하기 위한 방법은 주요 암 관련 유전자 및 약물 대사유전자의 다양한 유전자 변이를 단 한번의 실험을 통해 검출할 수 있어 각각의 유전체 변이마다 다른 플랫폼을 사용하는 종래 방법보다 매우 경제적이고 효율적이다. 또한 암의 유발, 진행 및 약물 대사 관련된 주요 유전자를 대상으로 높은 커버리지 (high coverage)로 시퀀싱함으로써 고해상도를 확보하여 기존 방법으로 검출이 되지 않았던 낮은 빈도 유전체 변이의 동정이 가능하다. 따라서 본 발명의 방법을 이용하면 암 세포의 유전체 DNA의 변이와 약물 반응을 예측하는 유전자 변이를 포함하는 시료에서 다양한 유전자 변이를 동시에 높은 민감도와 정확도로 분석할 수 있고, 이러한 분석 결과를 바탕으로 환자 맞춤형 암 치료제를 효율적으로 탐색할 수 있다.
이하 본 발명을 실시예에 의하여 더욱 상세하게 설명한다. 하기 실시예는 단지 본 발명을 보다 구체적으로 설명하기 위한 것으로, 본 발명의 범위가 이들 실시예에 국한되지 않는다는 것은 당업계에서 통상의 지식을 가진 자에게 있어서 자명할 것이다.
<실시예 1>
프라이머 및 앰플리콘의 제조
상기 표 1의 한국인 호발 암 유전자를 증폭하기 위한 정방향 및 역방향 프라이머 및 앰플리콘을 (Bioo Scientific.USA )에 의뢰하여 제작하였으며 , 각 유전자에 대한 프라이머명 및 프라이머 서열, 및 앰플리콘명 및 앰플리콘 서열을 상기 표 2 및 3에 각각 나타내었다.
<실시예 2>
시료로부터 변이 검출
도 1에 도시된 바와 같은 단계로 개발된 패널을 사용하여 변이가 알려진 암 세포주 DNA 및 FFPE DNA 로부터 유전자의 변이를 검출하였다.
단계 1: 타겟 유전자 증폭
HCT15, HCT116, HT29, A549, SW480, LA174T, MCF7, PC3 암 세포주 DNA 샘플 과 4개의 FFPE DNA의 돌연변이를 분석하기 위해 각각 2개의 파트로 나누고 마스터 믹스 (master mix)를 만들어 실험을 진행하였다.
1) 반응 1 내지 4
뉴클레아제가 없는 물 (nuclease free water) 20.4 μL에 10 내지 50 ng의 FFPE (Formalin-fixed, paraffin-embedded) DNA가 들어갈 수 있도록 농도를 맞추었다. 구체적으로, 상기 반응 1 내지 4 시약의 조성은 하기 표 4와 같으며, 각 샘플을 제조하여 96-웰 PCR 플레이트의 각 웰에 각각 분주하였다.
성분 부피
FFPE DNA 10-50 ng/20.4μL
Nuclease-free Water 20.4μL
NEXTflex® BRCA Plus Amplicon FFPE Primer Mix 1, 2, 3 또는 4 2.4 μL
NEXTflex® Hot Start PCR I Master Mix 7.2 μL
총부피 30 μL
상기와 같은 조성의 시약을 피펫으로 충분히 혼합한 후, 유전자증폭기 (thermocycler)를 이용하여 하기 표 5와 같은 PCR 조건으로 PCR을 수행하였다.
1) 98℃, 2분 1 사이클
2) 95℃, 20초 21 사이클
3) 62℃, 4분
4) 4℃ 유지
2) 반응 5 내지 8:
뉴클레아제가 없는 물 15.6 μL에 10 내지 50 ng의 FFPE DNA가 들어갈 수 있도록 농도를 맞추었다. 구체적으로, 상기 반응 5 내지 8 시약의 조성은 하기 표 6와 같으며, 각 샘플을 제조하여 96-웰 PCR 플레이트의 각 웰에 각각 분주하였다.
성분 부피
FFPE DNA 10-50 ng/15.6μL
Nuclease-free Water 15.6μL
NEXTflex® BRCA Plus Amplicon FFPE Primer Mix 5, 6, 7 또는 8 2.4 μL
NEXTflex® PCR Enhancer 1 0.6 μL
NEXTflex® PCR Enhancer 2 1.8 μL
NEXTflex® Hot Start PCR I Master Mix 7.2 μL
총부피 30 μL
상기와 같은 조성의 시약을 피펫으로 충분히 혼합한 후, 유전자증폭기를 이용하여 하기 표 7과 같은 PCR 조건으로 PCR을 수행하였다.
1) 98℃, 2분 1 사이클
2) 98℃, 30초 2 사이클
3) 70℃, 4분
4) 98℃, 30초 4 사이클
5) 68℃, 4분
6) 98℃, 30초 4 사이클
7) 66℃, 4분
8) 98℃, 30초 4 사이클
9) 64℃, 4분
10) 98℃, 30초 8 사이클
11) 62℃, 4분
12) 4℃ 유지
단계 2: PCR 산물 정제
반응을 정지시키기 위해, 상기 단계 1에서 얻은 총 8개의 산물에 NEXTflex® Stop Solution 1 μL를 각각 분주하고 30초간 반응시켰다. 상기 반은 1 내지 4의 산물을 한 웰에 혼합하여 이를 세트 1로 하고, 상기 반응 5 내지 8의 산물을 한 웰에 혼합하여 이를 세트 2로 하였다.
세트 1로부터 16 μL 및 세트 2로부터 64 μL를 각각 추출하여 새로운 웰에 혼합하고, 48μL의 NEXTflex® Cleanup Beads를 추가하여 혼합한 다음, 상온에서 마그네틱 스탠드 상에서 5분간 반응시켰으며, 상층액이 육안으로 보았을 때 충분히 분리 되지 않았다면, 상층액이 투명해 질 때까지 반응시켰다. 투명한 상층액을 새로운 웰에 옮기고 72 μL의 NEXTflex® Cleanup Beads를 추가하고 다시 혼합하고 반응시키는 것을 반복하여 투명한 상층액을 얻었다. 상층액을 제거하고 남아있는 비드에 80% 에탄올 200μL를 천천히 분주하고 상온에서 30초간 반응시키는 과정을 2번 반복하고 에탄올을 완전히 제거하였다.
여기에 재현탁 완충액 30 μL를 첨가하여 혼합하고 상온에서 3분간 반응시킨 다음, 마그네틱 스탠드 상에서 5분간 반응시켜 상층액을 완전히 분리하였다. 분리된 상층액 28μL를 새로운 웰에 옮기고 이 용액을 정제된 PCR I 반응 (purified PCR ⅠRecation)으로 명명하였다.
단계 3: 어댑터 부착 (Adapter ligation)
상기 단계 2에서 얻은 반응물을 하기 표 8과 같은 성분 및 조성으로 얼음 위에서 혼합하였으며, 뉴클레아제가 없는 96-웰 PCR 플레이트를 사용하였다.
성분 부피
정제된 PCR I 반응 28 μL
NEXTflex® Amplicon DNA Adapter 2.5 μL
NEXTflex® Ligation Mix 42 μL
총부피 72.5 μL
상기 PCR plate를 완전히 밀봉한 후 유전자증폭기에서 22℃, 15분간 반응시켰다.
단계 4: 어댑터 부착 산물의 정제
상기 단계 3의 혼합물에 NEXTflex® Cleanup Beads 58μL를 분주하고 혼합한 다음, 상온에서 5분 반응시키고, 마그네틱 스탠드 위에서 상온에서 5분간 더 반응시켜 투명한 상층액을 얻었다.
이후, 상기 단계 2에서와 같이 비드를 에탄올로 세척하고 세척된 비드에 재현탁 완충액을 첨가하고 반응시켜 투명한 상층액을 얻었다 (정제된 어댑터 부착 DNA). 다음 단계에 사용하지 않은 샘플은 -20℃에 보관하였다.
단계 5: 최종 산물 증폭
상기 단계 4에서 얻은 상층액 38 μL를 새로운 웰에 분주하고 바코드 프라이머를 포함하는 하기 표 9와 같은 성분 및 조성으로 얼음 위에서 혼합하였으며, 뉴클레아제가 없는 96-웰 PCR 플레이트를 사용하였다.
성분 부피
정제된 어댑터 부착 DNA 38 μL
NEXTflex® PCR II Barcoded Primer Mix 2 μL
NEXTflex® PCR II Master Mix 10 μL
총부피 50 μL
상기 PCR 플레이트를 밀봉한 후, 유전자증폭기를 이용하여 하기 표 10와 같은 PCR 조건으로 PCR을 수행하였다.
(1) 65℃, 20분 1 사이클
(2) 98℃, 2분 1 사이클
(3) 98℃, 30초 14 사이클
(4) 65℃, 30초
(5) 72℃, 60초
(6) 72℃, 4분 1 사이클
(7) 4℃ 유지
PCR이 완료된 후, 비드를 넣고 상기 단계 2에서와 같이 정제 과정을 수행하여 최종 산물을 얻었다.
단계 6: 최종 산물의 농도 측정 및 Miseq NGS 장비 구동
최종산물의 농도를 바이오어날라이져를 사용하여 측정하였으며, 최소 농도가 20 ng/ul 이상인 경우, Miseq NGS 장비를 이용하여 차세대 염기서열 분석 (NGS)을 수행하였고, 최소 농도가 20 ng/ul 이하인 경우, 상기 단계 1 내지 5를 반복하였다.
Miseq NGS 장비는 Miseq NGS 장비 매뉴얼에 따라 작동하였으며, 그 결과를 minifest파일에 따라 분석하고 그 결과를 Bam파일과 Vcf 파일로 얻었다 (파일명: NOVA-520999_ BRCA1-2_TP53_ Plus_FFPE_Manifest_v1.txt(도2)
<실시예 3>
NGS 호발암 패널 분석 결과의 데이터 분석
상기 실시예 2에서 얻은 데이터를 상용화된 데이터 분석 소프트웨어인 Illumina VariantStudio를 활용해서 분석하였다.
구체적으로, Illumina VariantStudio에 접속해서 상기 실시예 2에서 얻은 VCF 파일을 업로드한 후, variant pass filter로 제거한 다음, Qulity:99, Read Death: Cancer Gene 4000 이상 및 약물유전자 2000 이상으로 설정하고(도 3), 유전자 annotation & classification을 통해 정보를 링크하여 유전자 돌연변이 정보 확인하였다(도 4).
그 결과, A549 폐암 세포주에서 KRAS NM_033360.2:c.34G>A, NP_203524.1:p.Gly12Ser 돌연변이가 정확히 검출되는 것을 확인하였다.
<실시예 4>
NGS 데이터 비교
상기 실시예 3에서 얻은 데이터를 상용화되고 있는 Illumina Tumour 15와 Sanger sequencing을 통해 얻어진 데이터와 비교하여 개발 패널의 퍼포먼스를 확인 하였으며, 그 결과를 표 11에 나타내었다.
  Test Sample AKT1 BRAF EGFR ERBB2 FOXL2 KIT
개발 panal HCT15 ND ND ND ND ND ND
HCT116 ND ND ND ND ND ND
H1975 ND ND T790M hetro L858R hetro ND ND ND
HT29 ND V600E, hetero ND ND ND ND
A549 ND ND ND ND ND ND
SW480 ND ND ND ND ND ND
lIlumina tumor 15 panal & Sanger Sequencingl HCT15 ND ND ND ND ND ND
HCT116 ND ND ND ND ND ND
H1975 ND ND T790M hetro L858R hetro ND ND ND
HT29 ND V600E, hetro ND ND ND ND
A549 ND ND ND ND ND ND
SW480 ND ND ND ND ND ND
  Test Sample KRAS MET NRAS PDGFRA PIK3CA RET
개발 panal HCT15 G13D hetro ND ND ND ND ND
HCT116 G13D homo ND ND ND ND ND
H1975 ND ND ND P567S hetero ND ND
HT29 ND ND ND ND ND ND
A549 G12S homo ND ND ND ND ND
SW480 G12V homo ND ND ND ND ND
lIlumina tumor 15 panal &Sanger Sequencingl HCT15 G13D hetro ND ND ND ND ND
HCT116 G13D homo ND ND ND ND ND
H1975 ND ND ND P567S hetero ND ND
HT29 ND ND ND ND ND ND
A549 G12S homo ND ND ND ND ND
SW480 G12V homo ND ND ND ND ND
  Test Sample TP53 UGT1A1 CYP2D6 TPMT MTHFR DPYD
개발 panal HCT15 S241F *1/*1 *1/*1 *1/*1 1298A/C V815E
HCT116 ND *1/*1 *1/*10B *1/*1 677C/T *1/*1
H1975 ND *1/*1 *1/*11B *1/*1 ND *1/1
HT29 R273H *1/*1 *1/*1 *1/*1 677C/T 1298A/C *1/*9
A549 ND *1/*1 *10B/*10B *1/*1 1298C/C *1/*1
SW480 R273H P309S *1/*1 *1/*1 *1/*1 ND *1/1
lIlumina tumor 15 panal & Sanger Sequencingl HCT15 S241F *1/*1 *1/*1 *1/*1 1298A/C V815E
HCT116 ND *1/*1 *1/*10B *1/*1 677C/T *1/*1
H1975 ND *1/*1 *1/*10B *1/*1 ND *1/1
HT29 R273H *1/*1 *1/*1 *1/*1 677C/T 1298A/C *1/*9
A549 ND *1/*1 *10B/*10B *1/*1 1298C/C *1/*1
SW480 R273H P309S *1/*1 *1/*1 *1/*1 ND *1/1
그 결과, 정확도 100 %로 일치함을 알 수 있다.
이제까지 본 발명에 대하여 그 바람직한 실시예들을 중심으로 살펴보았다. 본 발명이 속하는 기술 분야에서 통상의 지식을 가진 자는 본 발명이 본 발명의 본질적인 특성에서 벗어나지 않는 범위에서 변형된 형태로 구현될 수 있음을 이해할 수 있을 것이다. 그러므로 개시된 실시예들은 한정적인 관점이 아니라 설명적인 관점에서 고려되어야 한다. 본 발명의 범위는 전술한 설명이 아니라 특허청구범위에 나타나 있으며, 그와 동등한 범위 내에 있는 모든 차이점은 본 발명에 포함된 것으로 해석되어야 할 것이다.
<110> SPMED Co.,Ltd. <120> NEXT GENERATION SEQUENCING (NGS)-BASED HYBRID DIAGNOSTIC PANEL FOR ANALYZING VARIATION OF CANCER GENE AND ANTICANCER DRUG-RELATED GENE <130> DPP170184KR <160> 128 <170> KoPatentIn 3.0 <210> 1 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> >520999_MTHFR_01_FOR <400> 1 gggcacagga tggggaagtc acagc 25 <210> 2 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_MTHFR_01_REV <400> 2 cgggagaacc aaaccggaat ggtcac 26 <210> 3 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> >520999_MTHFR_02_FOR <400> 3 gaaccagggt ccccactcca gcatc 25 <210> 4 <211> 28 <212> DNA <213> Artificial Sequence <220> <223> >520999_MTHFR_02_REV <400> 4 tggggagctg aaggactact acctcttc 28 <210> 5 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> >520999_MTHFR_03_FOR <400> 5 acatcttcag cagctcctcc ttggg 25 <210> 6 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_MTHFR_03_REV <400> 6 tacaggaatg gcctcctggg catgtg 26 <210> 7 <211> 27 <212> DNA <213> Artificial Sequence <220> <223> >520999_MTHFR_04_FOR <400> 7 tcagcgaact cagcactcca cccagag 27 <210> 8 <211> 27 <212> DNA <213> Artificial Sequence <220> <223> >520999_MTHFR_04_REV <400> 8 cttccgcttt gtgaaggcat gcaccga 27 <210> 9 <211> 24 <212> DNA <213> Artificial Sequence <220> <223> >520999_MTHFR_05_FOR <400> 9 gagggagctt atgggctctc ctgg 24 <210> 10 <211> 29 <212> DNA <213> Artificial Sequence <220> <223> >520999_MTHFR_05_REV <400> 10 ctgaagcact tgaaggagaa ggtgtctgc 29 <210> 11 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_MTHFR_06_FOR <400> 11 atgtgtcagc ctcaaagaaa agctgc 26 <210> 12 <211> 28 <212> DNA <213> Artificial Sequence <220> <223> >520999_MTHFR_06_REV <400> 12 ctctcctgac tgtcatccct attggcag 28 <210> 13 <211> 27 <212> DNA <213> Artificial Sequence <220> <223> >520999_MTHFR_07_FOR <400> 13 ttcaagtgct tcaggtcagc ctcaaag 27 <210> 14 <211> 27 <212> DNA <213> Artificial Sequence <220> <223> >520999_MTHFR_07_REV <400> 14 tggtctcttc atccctcgcc ttgaaca 27 <210> 15 <211> 29 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_01_FOR <400> 15 gggcaattcc tcaaaaacat gtcagtgtg 29 <210> 16 <211> 31 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_01_REV <400> 16 gcaatatacg ttgtcttgag aaggttgatg c 31 <210> 17 <211> 30 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_02_FOR <400> 17 gcttttcaaa aagacagtca attccccaac 30 <210> 18 <211> 29 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_02_REV <400> 18 gggagaatcc ctgatgtcat tcttcatag 29 <210> 19 <211> 30 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_03_FOR <400> 19 gggatcaaga aactaggcaa ctggtaaaag 30 <210> 20 <211> 32 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_03_REV <400> 20 ccttcttgtg ttctttgtag ctatgcagat ac 32 <210> 21 <211> 33 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_04_FOR <400> 21 gttggatcat aagaaagaac acacaggaga tac 33 <210> 22 <211> 28 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_04_REV <400> 22 cagcgaaagt aacttctggc ttccttcc 28 <210> 23 <211> 31 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_05_FOR <400> 23 gggaagtcta agctgatttt ctagaaccca g 31 <210> 24 <211> 30 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_05_REV <400> 24 gggcaaattt gacatgattt gggatagagg 30 <210> 25 <211> 28 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_06_FOR <400> 25 gggttactta ccatttgcga tcacctgg 28 <210> 26 <211> 28 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_06_REV <400> 26 gattgttgaa gtaccagcat gcaccatg 28 <210> 27 <211> 33 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_07_FOR <400> 27 ggctgagaaa aacttttgtg gggatatgga tac 33 <210> 28 <211> 31 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_07_REV <400> 28 gtgtagttgg tgtggaaatc agtgaacttg g 31 <210> 29 <211> 32 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_08_FOR <400> 29 gggttcttct gagtaagaaa gattctgctc tg 32 <210> 30 <211> 36 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_08_REV <400> 30 gagggtgctt actctaatat aaccctctat ttagtc 36 <210> 31 <211> 34 <212> DNA <213> Artificial Sequence <220> <223> >520999_KRAS_01_FOR <400> 31 ggggacataa cagttatgat tttgcagaaa acag 34 <210> 32 <211> 30 <212> DNA <213> Artificial Sequence <220> <223> >520999_KRAS_01_REV <400> 32 gccttctaga acagtagaca caaaacaggc 30 <210> 33 <211> 31 <212> DNA <213> Artificial Sequence <220> <223> >520999_KRAS_02_FOR <400> 33 ggcttacctg tcttgtcttt gctgatgttt c 31 <210> 34 <211> 31 <212> DNA <213> Artificial Sequence <220> <223> >520999_KRAS_02_REV <400> 34 gttaaggact ctgaagatgt acctatggtc c 31 <210> 35 <211> 33 <212> DNA <213> Artificial Sequence <220> <223> >520999_KRAS_03_FOR <400> 35 gttttgtgtc tactgttcta gaaggcaaat cac 33 <210> 36 <211> 30 <212> DNA <213> Artificial Sequence <220> <223> >520999_KRAS_03_REV <400> 36 gggacaaaag ttgtggacag gttttgaaag 30 <210> 37 <211> 32 <212> DNA <213> Artificial Sequence <220> <223> >520999_KRAS_04_FOR <400> 37 ccagaggact ataattactc cttaatgtca gc 32 <210> 38 <211> 27 <212> DNA <213> Artificial Sequence <220> <223> >520999_KRAS_04_REV <400> 38 gagtacagtg caatgaggga ccagtac 27 <210> 39 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_KRAS_05_FOR <400> 39 ggcaaataca caaagaaagc cctccc 26 <210> 40 <211> 27 <212> DNA <213> Artificial Sequence <220> <223> >520999_KRAS_05_REV <400> 40 gggtgcactg taataatcca gactgtg 27 <210> 41 <211> 31 <212> DNA <213> Artificial Sequence <220> <223> >520999_KRAS_06_FOR <400> 41 cctttatctg tatcaaagaa tggtcctgca c 31 <210> 42 <211> 33 <212> DNA <213> Artificial Sequence <220> <223> >520999_KRAS_06_REV <400> 42 gactgaatat aaacttgtgg tagttggagc tgg 33 <210> 43 <211> 28 <212> DNA <213> Artificial Sequence <220> <223> >520999_KRAS_07_FOR <400> 43 ctgaattagc tgtatcgtca aggcactc 28 <210> 44 <211> 30 <212> DNA <213> Artificial Sequence <220> <223> >520999_KRAS_07_REV <400> 44 gggaaggtac tggtggagta tttgatagtg 30 <210> 45 <211> 29 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_01_FOR <400> 45 gtacattaga gcctctggct agggagcag 29 <210> 46 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_01_REV <400> 46 acttcagctt ctcggtgccc actgg 25 <210> 47 <211> 28 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_02_FOR <400> 47 gctcaccagg aaagcaaaga caccatgg 28 <210> 48 <211> 28 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_02_REV <400> 48 gtatcaccca ggagccaggc tcactgac 28 <210> 49 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_03_FOR <400> 49 gcaagactcc acggaagggg acagg 25 <210> 50 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_03_REV <400> 50 gctgaaggat gaggccgtct gggag 25 <210> 51 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_04_FOR <400> 51 catccaggaa gtgttcgggg tggaag 26 <210> 52 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_04_REV <400> 52 ccagcatcct agagtccagt ccccac 26 <210> 53 <211> 27 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_05_FOR <400> 53 ctatcaccag gtgctggtgc tgagctg 27 <210> 54 <211> 28 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_05_REV <400> 54 atgccctaca ccactgccgt gattcatg 28 <210> 55 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_06_FOR <400> 55 tcatatgggt cacacccagg gggacg 26 <210> 56 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_06_REV <400> 56 gtgaggacgc atgtctgtcc aggcc 25 <210> 57 <211> 28 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_07_FOR <400> 57 acctcatgaa tcacggcagt ggtgtagg 28 <210> 58 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_07_REV <400> 58 gcaagaagga gtgtcagggc cggac 25 <210> 59 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_08_FOR <400> 59 cacgggtgtc ccagcaaagt tcatgg 26 <210> 60 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_08_REV <400> 60 ctgacaggat ggtgaccacc tcgacc 26 <210> 61 <211> 27 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_09_FOR <400> 61 gatgagctca cgctgcacat ccggatg 27 <210> 62 <211> 27 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_09_REV <400> 62 ctcagacatg ctcaggccaa ggggaac 27 <210> 63 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_10_FOR <400> 63 ccatcccggc agagaacagg tcagc 25 <210> 64 <211> 27 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_10_REV <400> 64 ctaccccgtt ctgtcccgag tatgctc 27 <210> 65 <211> 28 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_11_FOR <400> 65 gactaccctc attcctcctg ggacgctc 28 <210> 66 <211> 30 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_11_REV <400> 66 gatgagctgc taactgagca caggatgacc 30 <210> 67 <211> 28 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_12_FOR <400> 67 cagccactct caccttctcc atctctgc 28 <210> 68 <211> 28 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_12_REV <400> 68 gaatgctgtc cccgtcctcc tgcatatc 28 <210> 69 <211> 29 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_13_FOR <400> 69 gaaagccttt tggaagcgta ggaccttgc 29 <210> 70 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_13_REV <400> 70 gagatggctg gggcctgaga cttgtc 26 <210> 71 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_14_FOR <400> 71 ctgcagagac tcctcggtct ctcgc 25 <210> 72 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_14_REV <400> 72 gaagaccctt tcgccccaac ggtctc 26 <210> 73 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_15_FOR <400> 73 gaagcgaggg tcgtcgtact cgaagc 26 <210> 74 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_15_REV <400> 74 ggaagacaga ggacggggaa ggcgac 26 <210> 75 <211> 29 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_16_FOR <400> 75 gagagatgag agtaaggggt cgccttccc 29 <210> 76 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_16_REV <400> 76 gactgggcaa gaagtcgctg gagcag 26 <210> 77 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_17_FOR <400> 77 ctgaccatca cccaccggag tggttg 26 <210> 78 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_17_REV <400> 78 cacacacaca ggggtgttcc tggcg 25 <210> 79 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_18_FOR <400> 79 cacagaccca agttgcgcaa ggtgg 25 <210> 80 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_18_REV <400> 80 gtgggtggtg gatggtgggg ctaatg 26 <210> 81 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_19_FOR <400> 81 ccgggtccca cggaaatctg tctctg 26 <210> 82 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_19_REV <400> 82 gacagtggtc gtgctcaatg ggctg 25 <210> 83 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_20_FOR <400> 83 caacagctgc ttgccttggg aacgc 25 <210> 84 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_20_REV <400> 84 cttcggggac gtgttcagcc tgcag 25 <210> 85 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_21_FOR <400> 85 cacattgagc acgaccaccg gcgtc 25 <210> 86 <211> 33 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_21_REV <400> 86 ggttcaaata ggactaggac ctgtagtctg ggg 33 <210> 87 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_22_FOR <400> 87 gcttctggtc cagcctgtgg tttcac 26 <210> 88 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_22_REV <400> 88 gcaacctgct gcatgtggac ttccag 26 <210> 89 <211> 26 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_23_FOR <400> 89 gacctcctcc ctcacctggt cgaagc 26 <210> 90 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_23_REV <400> 90 gccatcttcc tgctcctggt ggacc 25 <210> 91 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_24_FOR <400> 91 gatagagtgc agcccagcgt tggcg 25 <210> 92 <211> 27 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_24_REV <400> 92 ccaggtgtgt ccagaggagc ccatttg 27 <210> 93 <211> 29 <212> DNA <213> Artificial Sequence <220> <223> >520999_BRAF_01_FOR <400> 93 ctttctagta actcagcagc atctcaggg 29 <210> 94 <211> 32 <212> DNA <213> Artificial Sequence <220> <223> >520999_BRAF_01_REV <400> 94 ggtgattttg gtctagctac agtgaaatct cg 32 <210> 95 <211> 28 <212> DNA <213> Artificial Sequence <220> <223> >520999_BRAF_02_FOR <400> 95 ggatccagac aactgttcaa actgatgg 28 <210> 96 <211> 33 <212> DNA <213> Artificial Sequence <220> <223> >520999_BRAF_02_REV <400> 96 gcctaaactc ttcataatgc ttgctctgat agg 33 <210> 97 <211> 104 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_01 <400> 97 gctggggact aggtacccca ttctagcggg gcacagcaca aagctcatag ggggatgggg 60 tcaccaggaa agcaaagaca ccatggtggc tgggccgggg ctgt 104 <210> 98 <211> 134 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_02 <400> 98 tggctgggcc ggggctgtcc agtgggcacc gagaagctga agtgctgcag cagggaggtg 60 aagaagagga agagctccat gcgggccagg ggctccccga ggcatgcacg gcggcctgtg 120 gggaggggag gggc 134 <210> 99 <211> 107 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_03 <400> 99 gagccgggct ccccacaggc acctgctgag aaaggcagga aggcctccgg cttcacaaag 60 tggccctggg catccaggaa gtgttcgggg tggaagcgga agggctt 107 <210> 100 <211> 92 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_04 <400> 100 cggaagggct tctcccagac ggcctcatcc ttcagcaccg atgacaggtt ggtgatgagt 60 gtcgttccct gggcagaaga tgcagggtga ga 92 <210> 101 <211> 113 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_05 <400> 101 gggtgaggag ggcgccaggc ctaccttagg gatgcggaag ccctgtactt cgatgtcacg 60 ggatgtcata tgggtcacac ccagggggac gatgtcccca aagcgctgca cct 113 <210> 102 <211> 118 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_06 <400> 102 atgtccccaa agcgctgcac ctcatgaatc acggcagtgg tgtagggcat gtgagcctgg 60 tcacccatct ctggtcgccg cacctgccct atcacgtcgt cgatctcctg ttggacac 118 <210> 103 <211> 117 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_07 <400> 103 gcatgtgagc ctggtcaccc atctctggtc gccgcacctg ccctatcacg tcgtcgatct 60 cctgttggac acggcctgga cagacatgcg tccccacaat gggtcagcac ccagggg 117 <210> 104 <211> 106 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_08 <400> 104 gcccccgcct gtacccttcc tccctcggcc cctgcactgt ttcccagatg ggctcacgct 60 gcacatccgg atgtaggatc atgagcagga ggccccaggc cagcgt 106 <210> 105 <211> 114 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_09 <400> 105 taggatcatg agcaggaggc cccaggccag cgtggtcgag gtggtcacca tcccggcaga 60 gaacaggtca gccaccacta tgcacaggtt ctcatcattg aagctgctct cagg 114 <210> 106 <211> 68 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_10 <400> 106 caccactatg cacaggttct catcattgaa gctgctctca gggttcccct tggcctgagc 60 agggccga 68 <210> 107 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_11 <400> 107 aacccaccac ccttgccccc caccgtggca gccactctca ccttctccat ctctgccagg 60 aaggcctcag tcaggtctcg ggggggctgg gctgggtccc a 101 <210> 108 <211> 129 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_12 <400> 108 caggaaggcc tcagtcaggt ctcggggggg ctgggctggg tcccaggtca tcctgtgctc 60 agttagcagc tcatccagct gggtcaggaa agccttttgg aagcgtagga ccttgccagc 120 cagcgctgg 129 <210> 109 <211> 98 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_13 <400> 109 cagccagcgc tgggatatgc aggaggacgg ggacagcatt cagcacctac accagacaga 60 acggggtctc aatccctcct gtgctctgcg ttcacctg 98 <210> 110 <211> 142 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_14 <400> 110 tccgcacctc gcgcagaaag cccgactcct ccttcagtcc ctcctgagct aggtccagca 60 gcctgaggaa gcgagggtcg tcgtactcga agcggcgccc gcaggtgagg gaggcgatca 120 cgttgctcac ggctttgtcc aa 142 <210> 111 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_15 <400> 111 ggcgcccgca ggtgagggag gcgatcacgt tgctcacggc tttgtccaag agaccgttgg 60 ggcgaaaggg gcgtcctggg ggtgggagat gcgggtaagg g 101 <210> 112 <211> 103 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_16 <400> 112 cgtcccccgc cttcccagtt cccgctttgt gcccttctgc ccatcaccca ccggagtggt 60 tggcgaaggc ggcacaaagg caggcggcct cctcggtcac cca 103 <210> 113 <211> 128 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_17 <400> 113 gcgaaggcgg cacaaaggca ggcggcctcc tcggtcaccc actgctccag cgacttcttg 60 cccaggccca agttgcgcaa ggtggagacg gagaagcgcc tctgctcgcg ccacgcgggc 120 ccatagcg 128 <210> 114 <211> 95 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_18 <400> 114 agacggagaa gcgcctctgc tcgcgccacg cgggcccata gcgcgccagg aacacccctg 60 ggggtgggac gggcacgtgc gcgtggccat gaagg 95 <210> 115 <211> 117 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_19 <400> 115 tccccaccgc tgcttgcctt gggaacgcgg cccgaaaccc aggatctggg tgatgggcac 60 aggcgggcgg tcggcggtgt cctcgccgtg ggtcaccagc gcctcgcgca cggccgc 117 <210> 116 <211> 125 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_20 <400> 116 ggcccgaaac ccaggatctg ggtgatgggc acaggcgggc ggtcggcggt gtcctcgccg 60 tgggtcacca gcgcctcgcg cacggccgcc agcccattga gcacgaccac cggcgtccag 120 gccag 125 <210> 117 <211> 85 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_21 <400> 117 caggccagct gcaggctgaa cacgtccccg aagcggcgcc gcaactgcag agggagggtc 60 agggcctctt gtcaagccag gatcc 85 <210> 118 <211> 95 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_22 <400> 118 ccaccaccca tgtttgctgg tggtggggca tcctcaggac ctctgccgcc ctccaggacc 60 tcctccctca cctggtcgaa gcagtatggt gtgtt 95 <210> 119 <211> 105 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_23 <400> 119 agtatggtgt gttctggaag tccacatgca gcaggttgcc cagcccgggc agtggcaggg 60 ggcctggtgg gtagcgtgca gcccagcgtt ggcgccggtg catca 105 <210> 120 <211> 89 <212> DNA <213> Artificial Sequence <220> <223> >520999_CYP2D6_24 <400> 120 ccggtgcatc aggtccacca ggagcaggaa gatggccact atcacggcca ggggcaccag 60 tgcttctagc cccatacctg cctcactac 89 <210> 121 <211> 96 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_01 <400> 121 attttatttt atctatgtct catttacttt tctgtaagta gatataactt ttcaaaaaga 60 cagtcaattc cccaactttt atgtcgttct tcaaaa 96 <210> 122 <211> 91 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_02 <400> 122 ttttatgtcg ttcttcaaaa gcatcaacct tctcaagaca acgtatattg catattttac 60 ctgaaacaag aaagagtaac atgttaaaat a 91 <210> 123 <211> 100 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_03 <400> 123 aaaaaaaaaa aacccaacaa ctttacctgg atgtttagtt ggatcataag aaagaacaca 60 caggagatac tgaaacttct ttcccaggag ggaaaacatt 100 <210> 124 <211> 112 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_04 <400> 124 tgaaacttct ttcccaggag ggaaaacatt gtatctgcat agctacaaag aacacaagaa 60 ggtatttgtt acatttctct acacaggcaa aggctggagg gacaaaaggc ag 112 <210> 125 <211> 95 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_05 <400> 125 aaaaagtata gtatactaaa aaattaagac agctaaacaa aaaaagaaaa attacttacc 60 atttgcgatc acctggattg atggcaacta atgct 95 <210> 126 <211> 126 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_06 <400> 126 attgatggca actaatgctc ctctatccca aatcatgtca aatttgccaa tatttgtcct 60 accagaaaga gaaaaaacat tttatgggag aaaaatcaaa tctttaagaa gatgagcagc 120 gtcccc 126 <210> 127 <211> 108 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_07 <400> 127 aattatttac ccaaatcaaa acaaacctta aatactttgg ttccaggaat ttcggtgatt 60 ggttcttctg agtaagaaag attctgctct gtaaaaaatt cttgtatc 108 <210> 128 <211> 111 <212> DNA <213> Artificial Sequence <220> <223> >520999_TPMT_08 <400> 128 taaaaaattc ttgtatccca agttcactga tttccacacc aactacactg tgtccccggt 60 ctgcaaacct gcataaaatc atacatttac acttaaatta tgttttcaaa t 111

Claims (11)

  1. 암 유전자 또는 항암제 대사관련 유전자의 표적 부위를 증폭할 수 있는 프라이머를 이용하여 시료의 DNA로부터 표적 부위를 증폭하는 단계;
    상기 증폭된 산물에 어댑터 (adapter)를 부착하는 단계;
    상기 어댑터가 부탁된 산물을 증폭하여 최종 산물을 제조하는 단계; 및
    상기 최종 산물의 서열을 분석하여 상기 표적 부위에 대한 앰플리콘 (amplicon)의 서열과 비교하여 유전자 변이를 검출하는 단계
    를 포함하는 것을 특징으로 하는, 암 유전자 및 항암제 대사 관련 유전자 변이 분석을 위한 차세대 염기 서열 분석(NGS) 방법.
  2. 제1항에 있어서,
    상기 암 유전자 또는 항암제 대사관련 유전자는 표 1에 기재된 유전자로부터 선택되는 1종 이상인 것을 특징으로 하는, 방법.
  3. 제1항에 있어서,
    상기 표적 부위는 표 1에 기재된 표적 부위로부터 선택되는 1종 이상인 것을 특징으로 하는, 방법.
  4. 제1항에 있어서,
    상기 프라이머는 표 2에 기재된 서열번호 1 내지 96의 프라이머로부터 선택되는 것을 특징으로 하는, 방법.
  5. 제1항에 있어서,
    상기 앰플리콘은 표 3에 기재된 서열번호 97 내지 128의 서열로부터 선택되는 것을 특징으로 하는, 방법.
  6. 제1항에 있어서,
    상기 증폭된 산물을 정제하는 단계를 추가로 포함하는 것을 특징으로 하는, 방법.
  7. 암 유전자 또는 항암제 대사관련 유전자의 표적 부위를 증폭할 수 있는 프라이머를 포함하는 것을 특징으로 하는, 시료의 DNA로부터 표적 부위를 증폭하기 위한 조성물.
  8. 제7항에 있어서,
    상기 암 유전자 또는 항암제 대사관련 유전자는 표 1에 기재된 유전자로부터 선택되는 1종 이상인 것을 특징으로 하는, 방법.
  9. 제7항에 있어서,
    상기 표적 부위는 표 1에 기재된 표적 부위로부터 선택되는 1종 이상인 것을 특징으로 하는, 방법.
  10. 제7항에 있어서,
    상기 프라이머는 표 2에 기재된 서열번호 1 내지 96의 프라이머로부터 선택되는 것을 특징으로 하는, 방법.
  11. 제7항에 따른 조성물, 어댑터 및 바코드 프라이머를 포함하는 것을 특징으로 하는, 암 유전자 및 항암제 대사 관련 유전자 변이 진단 패널.
KR1020170179123A 2017-12-26 2017-12-26 암 유전자 및 항암제 대사 관련 유전자 변이 분석을 위한 차세대 염기 서열 분석(ngs) 기반 혼합 진단 패널 KR20190078715A (ko)

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KR1020230128858A KR20230146139A (ko) 2017-12-26 2023-09-26 암 유전자 및 항암제 대사 관련 유전자 변이 분석을 위한 차세대 염기 서열 분석(ngs) 기반 혼합 진단 패널

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111154872A (zh) * 2019-12-31 2020-05-15 浙江大学 用于检测肺癌驱动性基因突变的探针及试剂盒

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111154872A (zh) * 2019-12-31 2020-05-15 浙江大学 用于检测肺癌驱动性基因突变的探针及试剂盒

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