WO2022145587A1 - 히스티딘에 의한 피드백 억제가 감소된 atp-prt 변이체 및 이를 발현하는 히스티딘 생산 균주 - Google Patents
히스티딘에 의한 피드백 억제가 감소된 atp-prt 변이체 및 이를 발현하는 히스티딘 생산 균주 Download PDFInfo
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- WO2022145587A1 WO2022145587A1 PCT/KR2021/005243 KR2021005243W WO2022145587A1 WO 2022145587 A1 WO2022145587 A1 WO 2022145587A1 KR 2021005243 W KR2021005243 W KR 2021005243W WO 2022145587 A1 WO2022145587 A1 WO 2022145587A1
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- histidine
- atp
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- 229960003512 nicotinic acid Drugs 0.000 description 1
- 239000011664 nicotinic acid Substances 0.000 description 1
- QIQXTHQIDYTFRH-UHFFFAOYSA-N octadecanoic acid Chemical compound CCCCCCCCCCCCCCCCCC(O)=O QIQXTHQIDYTFRH-UHFFFAOYSA-N 0.000 description 1
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- 229910052939 potassium sulfate Inorganic materials 0.000 description 1
- 235000011151 potassium sulphates Nutrition 0.000 description 1
- 235000018102 proteins Nutrition 0.000 description 1
- 102000004169 proteins and genes Human genes 0.000 description 1
- 239000000376 reactant Substances 0.000 description 1
- 238000011160 research Methods 0.000 description 1
- 150000003839 salts Chemical class 0.000 description 1
- 238000012163 sequencing technique Methods 0.000 description 1
- 238000004088 simulation Methods 0.000 description 1
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- 241000894007 species Species 0.000 description 1
- 239000008117 stearic acid Substances 0.000 description 1
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- 230000001629 suppression Effects 0.000 description 1
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- 239000011747 thiamine hydrochloride Substances 0.000 description 1
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- 230000009466 transformation Effects 0.000 description 1
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- 229910000368 zinc sulfate Inorganic materials 0.000 description 1
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Definitions
- the present invention relates to an ATP-PRT mutant with reduced feedback inhibition by histidine and a histidine-producing strain expressing the same.
- ATP-phosphoribosyltransferase catalyzes the first step in the biosynthesis of histidine in bacteria, fungi, or plants.
- an ATP-PRT variant with increased histidine resistance is required to increase the histidine production of microorganisms.
- Patent Document 0001 Republic of Korea Publication No. 10-2017-0098205 (2017.08.02)
- an ATP-phosphoribosyltransferase variant with reduced feedback inhibition by histidine.
- One aspect provides an ATP-phosphoribosyltransferase variant in which glutamic acid at position 271 is substituted with lysine in ATP-phosphoribosyltransferase consisting of the amino acid sequence of SEQ ID NO: 1.
- the amino acid sequence of SEQ ID NO: 1 is a sequence of ATP-phosphoribosyltransferase expressed from wild-type hisG of Escherichia coli.
- ATP-phosphoribosyltransferase may be referred to as ATP-PRT.
- ATP-PRT catalyzes 1-(5-phospho-D-ribosyl)-ATP + diphosphate ⁇ ATP + 5-phospho-alpha-D-ribose 1-diphosphate, the first step in histidine biosynthesis.
- the ATP-phosphoribosyltransferase may be used interchangeably with “hisG”.
- the ATP-phosphoribosyltransferase may be expressed from the hisG gene of E. coli.
- the mutant may have reduced feedback inhibition by histidine.
- the ATP-PRT strain containing the E271K mutation has increased histidine production than the wild type.
- the variant is (a) histidine at position 232 (histidine, H) is lysine (lysine, K) or threonine (threonine, T) substitution; (b) arginine at position 250 is substituted with histidine; (c) threonine at position 252 is replaced with alanine, leucine, glycine, valine, or isoleucine; (d) serine at position 288 may further include one or more substitutions with proline. According to one embodiment, it was confirmed that histidine production increased when the mutations of (a) to (d) were further included in addition to the 271st glutamic acid mutation.
- the variant may have activity even at a histidine concentration of 5 mM to 25 mM.
- Another aspect provides a polynucleotide encoding the ATP-phosphoribosyltransferase variant, or a vector comprising the same.
- the vector may be a plasmid or a phage.
- the transformed strain may be a strain introduced with a polynucleotide encoding an ATP-phosphoribosyltransferase mutant, or a vector comprising the same. Since the strain maintains the activity of ATP-phosphoribosyltransferase even when the concentration of histidine is increased, the production of histidine may increase.
- the strain expressing the ATP-phosphoribosyltransferase mutant may increase the production of histidine by about 22 to 92%.
- the transformation may be carried out by a known method, for example, by an electroporation method (van der Rest et al., Appl. Microbiol. Biotechnol., 52, 541-545, 1999) and the like.
- the strain may be a strain of Escherichia sp., specifically, Escherichia coli, Escherichia albertii, Escherichia blattae , Escherichia fergusonii (Escherichia hermannii) or Escherichia vulneris (Escherichia vulneris) may be a strain.
- the histidine production method comprises the steps of culturing the transformed strain in a medium; It may include recovering histidine from the strain or medium.
- the medium may include a carbon source, a nitrogen source, and inorganic salts.
- the carbon source may include, for example, sugars and carbohydrates such as glucose, sugar, citrate, fructose, lactose, maltose or molasses; oils and fats such as soybean oil, sunflower oil, castor oil, coconut oil and the like; fatty acids such as palmitic acid, stearic acid, and linoleic acid; glycerol; alcohols such as ethanol; Organic acids such as acetic acid may be included, but are not particularly limited and may be used individually or as a mixture.
- the medium of the E. coli mutant may include glucose.
- the nitrogen source may be, for example, peptone, meat extract, yeast extract, dried yeast, corn steep liquor, soybean cake, urea, thiourea, ammonium salt, nitrate and other compounds containing organic or inorganic nitrogen, but in particular, It is not limited.
- peptone peptone
- meat extract yeast extract
- yeast extract dried yeast
- corn steep liquor soybean cake
- urea thiourea
- ammonium salt nitrate
- nitrate but in particular, It is not limited.
- magnesium, manganese, potassium, calcium, iron, zinc, cobalt, etc. may be used as the inorganic salt, but is not limited thereto.
- basic compounds such as sodium hydroxide, potassium hydroxide, ammonia or acid compounds such as phosphoric acid or sulfuric acid may be used in an appropriate manner to adjust the pH of the medium.
- an antifoaming agent such as a fatty acid polyglycol ester may be used to suppress foaming, and oxygen or oxygen-containing gas (eg, air) may be injected into the medium to maintain aerobic conditions.
- the culturing means growing microorganisms in an artificially controlled environment, and can be performed by a culture method well known in the art.
- the incubation temperature may be 20 to 45 °C, and may be cultured for 10 to 200 hours, but is not limited thereto.
- step of recovering the histidine various methods well known in the art may be used. For example, centrifugation, filtration, anion exchange chromatography, crystallization, or HPLC may be used, but is not limited thereto.
- ATP-phosphoribosyltransferase mutant may maintain activity even in a high concentration histidine environment.
- the strain expressing the ATP-phosphoribosyltransferase mutant may increase histidine production.
- H232, S288, T252, R250, A248, E271, and E240 of hisG interact with histidine.
- Example 1 Selection of mutants having TRA (1,2,4-triazole-3-alanine) resistance
- 1,2,4-tria a derivative of L-histidine, using N-methyl-N'-nitro-N-nitrosoguanidine (NTG), a chemical mutagen, was used to construct a mutant with a slowed negative feedback by L-histidine.
- NTG N-methyl-N'-nitro-N-nitrosoguanidine
- TRA sol-3-alanine
- E. coli MG1655 (KCTC14419BP) was cultured in LB medium for 16 hours (37° C., 200 rpm). After incubation, centrifuged at 4500 rpm for 10 minutes and suspended in saline/TM buffer. After resuspending the cells by adding a buffer, 100 ⁇ g/ml of NTG was added to induce mutation at 37° C. and 200 rpm for 30 minutes.
- the cells were suspended in 3 ml D.W and the plate medium (composition: glucose 8%, sodium monohydrogen phosphate 0.6%, ammonium sulfate 0.2%, magnesium sulfate 0.02%, calcium nitrate) 0.001%, iron sulfate 10ppm, TRA 1%) and primary culture at 37°C for 2 days.
- the strains that formed a single colony were isolated and the mutants were selected by secondary culture in the same manner as in the primary culture in a plate medium supplemented with 1% TRA.
- the viability (increase in cell number) of the selected mutants in a plate medium supplemented with 0%, 0.5%, 1.0%, or 2.0% TRA was measured to compare resistance to TRA. (See Table 1 below)
- ATP-PRT ATP-phosphoribosyltransferase, hisG
- the three-dimensional structure was analyzed when docking with the histidine molecule of hisG hexamer derived from E. coli, and based on the docking analysis result, the expression from E. coli hisG was Amino acids located at histidine entry and binding sites of ATP-PRT were analyzed. As a result of the simulation, it was found that H232, S288, T252, R250, A248, E271, and E240 of hisG were highly likely to interact with histidine. (See Fig. 2)
- Example 3 Construction of an ATP-PRT mutant expression strain having one mutation and evaluation of histidine productivity
- a one-step inactivation method was used to introduce the point mutation-introduced hisG_H232K into the chromosome of the E. coli DS9H strain (Warner et al., PNAS, 6:6640-6645 (2000)).
- hisG_HF and hisG_HR fragments were used using E. coli DS9H genomic DNA as a template and primer pairs hisG_HF-F/hisG_HF-R, hisG_HR-F/hisG_HR-R were amplified, respectively.
- a cassette fragment was obtained by amplifying the pKD13 plasmid using FR(hisG)-F/FR(hisG)-R.
- hisG_H232K two fragments were obtained from E. coli DS9H genomic DNA using hisG+FR-F/232K-R and 232K-F/hisG+HR-R primer pairs, respectively. The obtained two fragments were again ligated into one fragment using hisG+FR-F/hisG+HR-R primers to obtain a hisG_H232K fragment.
- the hisG_HF-F/hisG_HR-R primer pair was linked into one fragment using overlapping PCR.
- a single linked DNA fragment was introduced into the E. coli DS9H strain carrying the pKD46 plasmid by electroporation.
- PCR was performed using the hisGW-CF/hisGW-CR primer for cell lines showing kanamycin resistance to identify strains into which hisG_H232K was introduced.
- the primers used in the experiment are shown in Table 3 below.
- hisG_H232K or hisG_H232T strain introduced histidine production increased by about 22% to 26% compared to the control group.
- histidine production was increased by about 35% to 39% compared to the control group.
- HisG_E271K-introduced strain increased histidine production by about 34% compared to the control group.
- the hisG_S288P-introduced strain increased histidine production by about 46% compared to the control, and the hisG_R250H-introduced strain showed the highest increase in histidine production by about 67% more than the control.
- H232E, E240K, and A248F variants rather decreased histidine production, and the R250E, T252P, T252Q, and S288K variants did not significantly increase the histidine production.
- the mutants of the 7 species increased histidine production, which is thought to be due to a decrease in feedback inhibition by histidine. .
- Example 4 hisG_SDM4 (H232K, T252A, E271K, and S288P) introduced plasmid construction
- a plasmid capable of expressing the amino acid substituted variants of H232K, T252A, E271K, and S288P in the ATP-PRT enzyme derived from E. coli hisG was prepared.
- each gene was amplified with a pfu premix (bioneer) using three pairs of primers hisG-F/232K-R, 232K-F/252A-R, and 252A-F/hisG-R.
- PCR was performed once more with the hisG-F/hisG-R primer pair using each of the three amplified fragments as a template to connect the three fragments into one fragment (hereinafter may be referred to as SDM3 fragment).
- SDM3 fragment and pTRC99A plasmid were treated with EcoRI and HindIII (NEB) with restriction enzymes, respectively, and SDM3 fragment was introduced into pTRC99A plasmid using T4 ligase.
- pTRC99A-hisG_SDM3 pTRC99A-hisG_SDM3 template and hisG-F/271K-R2 PCR was performed with a pair of primers to obtain an SDM4 fragment into which four mutations were introduced: H232K, T252A, E271K, and S288P.
- HisG_SDM7 was prepared in which a part of the amino acid sequence of the hisG_SDM4 enzyme was substituted with other amino acids, and this was introduced into the plasmid.
- pTRC99A-hisG_SDM4 was used as a template, and the 232th amino acid was substituted with T, the 250th amino acid with H, and the 252th amino acid with L, and two mutations (E271K and S288P) were maintained.
- the mutation positions of hisG_SDM7 are H232T, R250H, T252L, E271K, and S288P
- each gene was amplified with a pfu premix (bioneer) using three pairs of primers hisG-F/232T-R, 232T-F/250H+252L-R, and 250H+252L-F/hisG-R. Then, using each of the three amplified fragments as a template, PCR was performed once more with the hisG-F/hisG-R primer pair to link the three fragments into one fragment. Then, PCR fragment and pTRC99A plasmid were digested with EcoRI and HindIII (NEB), respectively, and ligated with T4 ligase (Takara) to construct pTRC99A-hisG_SDM7.
- bioneer bioneer
- hisG-CF/hisG-CR primer See Table 6 below. H232T, R250H, T252L.
- the ATP-PRT mutant containing E271K and S288P mutations was named hisG_SDM7.
- hisG_SDM4 A one-step inactivation method was used to introduce hisG_SDM4 into the chromosomes of the E. coli DS9H strain (Warner et al., PNAS, 6:6640-6645 (2000)).
- hisG_HF and hisG_HR fragments were used using E. coli DS9H genomic DNA as a template and primer pairs hisG_HF-F/hisG_HF-R, hisG_HR-F/hisG_HR-R were amplified, respectively.
- a cassette fragment was obtained by amplifying using FR(hisG)-F/FR(hisG)-R from the pKD13 plasmid.
- hisG_SDM4 a hisG_SDM4 fragment was obtained from the pTRC99A-hisG_SDM4 plasmid using hisG+FR-F/hisG+HR-R primers.
- the hisG_HF-F/hisG_HR-R primer pair was linked into one fragment using overlapping PCR. A single linked DNA fragment was introduced into the E.
- coli DS9H strain carrying the pKD46 plasmid by electroporation Thereafter, PCR was performed using the hisGW-CF/hisGW-CR primer for cell lines showing kanamycin resistance to identify strains into which hisG_SDM4 was introduced. The process of removing the kanamycin marker, which is an antibiotic resistance gene, was performed for the strains whose introduction was confirmed. After inducing FLP recombination by introducing the pCP20 plasmid into the strain whose hisG_SDM4 introduction was confirmed, it was confirmed whether or not antibiotics were removed through growth in the LB plate medium to which antibiotics (kanamycin) were added and not added, respectively.
- the strains from which the antibiotic was removed were confirmed to grow on the LB plate medium, but did not grow on the LB plate medium to which the antibiotic (kanamycin) was added. And finally, the sequence was confirmed using the hisGW-CF/hisGW-CR primer pair.
- the primers used in the experiment are listed in Table 7 below.
- a one-step inactivation method was used to introduce hisG_SDM7 into the chromosomes of the E. coli DS9H strain (Warner et al., PNAS, 6:6640-6645 (2000)).
- hisG_HF and hisG_HR fragments were used using E. coli DS9H genomic DNA as a template and primer pairs hisG_HF-F/hisG_HF-R, hisG_HR-F/hisG_HR-R were amplified, respectively.
- a cassette fragment was obtained by amplifying using FR(hisG)-F/FR(hisG)-R from the pKD13 plasmid.
- hisG_SDM7 a hisG_SDM7 fragment was obtained from the pTRC99A-hisG_SDM7 plasmid using hisG+FR-F/hisG+HR-R primers.
- the hisG_HF-F/hisG_HR-R primer pair was linked into one fragment using overlapping PCR. A single linked DNA fragment was introduced into the E.
- coli DS9H strain carrying the pKD46 plasmid by electroporation Thereafter, PCR was performed using the hisGW-CF/hisGW-CR primer for cell lines showing kanamycin resistance to identify strains into which hisG_SDM7 was introduced. The process of removing the kanamycin marker, which is an antibiotic resistance gene, was performed for the strains whose introduction was confirmed. After inducing FLP recombination by introducing the pCP20 plasmid into the strain whose hisG_SDM7 introduction was confirmed, it was confirmed whether or not antibiotics were removed through growth in LB plate media to which antibiotics (kanamycin) were added and not added, respectively.
- the strains from which the antibiotic was removed were confirmed to grow on the LB plate medium, but did not grow on the LB plate medium to which the antibiotic (kanamycin) was added. And finally, the sequence was confirmed using the hisGW-CF/hisGW-CR primer pair.
- the primer sequences used to prepare the hisG_SDM7 gene-introduced mutant are the same as in Table 6 above.
- Example 7 Measurement of histidine negative feedback resistance of mutants expressed from hisG_SDM4 or hisG_SDM7 genes
- LB medium 50ml of LB medium was dispensed into 500ml flasks, and 3 strains of DS9H, DS9H_ ⁇ hisG::hisG_SDM4, or DS9H_ ⁇ hisG::hisG_SDM7 were inoculated by 1% each.
- Culture conditions were 30 degreeC and 180 rpm.
- OD 600 was 0.6
- ATP-PRT expression was induced with 1 mM IPTG (final concentration), and additional culture was performed for about 4 hours.
- the obtained cells were sonicated and centrifuged. The obtained supernatant was used to evaluate ATP phosphoribosyltransferase activity.
- Reaction conditions for evaluating the enzyme activity were carried out with reference to the existing literature. (Microb Cell Fact. 2018. Mar.17:42) The supernatant was quantified to match the protein concentration, and the reaction composition of Table 8 below was used to mix the reactants, and then the enzyme activity was measured.
- Tris-HCl 100 mM potassium chloride 100 mM magnesium chloride 10 mM ATP 5 mM PRPP 1 mM pyrophosphatase 10mU ATP phosphoribosyltransferase 500 nM histidine 0 mM, 0.5 mM, 1 mM, 5 mM, 10 mM, 25 mM, 50 mM
- the concentrations of histidine were set to 0 mM, 0.5 mM, 1 mM, 5 mM, 10 mM, 25 mM, and 50 mM, respectively.
- Activity was measured at 30°C with a UV wavelength of 290 nm at 2 minute intervals for 30 minutes.
- the ATP-PRT activity of the hisG_WT enzyme was rapidly decreased from a histidine concentration of 5 mM.
- the enzyme activity of hisG_SDM4 (H232K, T252A, E271K, S288P) was decreased from the histidine concentration of 25 mM.
- hisG_SDM7 (H232T R250H T252L E271K S288P) showed a decrease in enzymatic activity from histidine concentration of 25 mM similar to hisG_SDM4, but at each histidine concentration, the enzymatic activity increased than hisG_SDM4.
- hisG_SDM7 had the best resistance to inhibition of histidine-induced activity.
- Histidine productivity of strains into which hisG_SDM4 or hisG_SDM7 was introduced was confirmed. 10ml each of the medium according to the composition of Table 9 was dispensed into each flask, and 1% of DS9H, DS9H_ ⁇ hisG::hisG_SDM4, or DS9H_ ⁇ hisG::hisG_SDM7 strains were inoculated and inoculated at 34°C and 200rpm for 72 hours. cultured. After incubation, the histidine production of each flask was comparatively analyzed.
- HisG_SDM4 expression strain increased histidine production by about 53% compared to the control, and hisG_SDM7 expression strain increased histidine production by about 92% compared to the control group. (See Table 10)
- strain name L-histidine (%) Incubation time (hr) DS9H 0.78 72 DS9H_ ⁇ hisG::hisG_SDM4 (H232K, T252A, E271K, S288P) 1.20 72 DS9H_ ⁇ hisG::hisG_SDM7 (H232T, R250H, T252L, E271K, S288P) 1.50 72
- hisG_SDM4 or hisG_SDM7 is considered to have increased histidine productivity because feedback inhibition by histidine is decreased compared to his_WT.
- the histidine productivity of the hisG_SDM7 expression strain was higher than that of the hisG_SDM4 expression strain.
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Abstract
Description
생육도 | |||
TRA 농도 | MG1655 | H-1 | H-2 |
0% | ++++ | ++++ | ++++ |
0.5% | ++ | +++ | +++ |
1.0% | - | + | ++ |
2.0% | - | - | + |
서열번호 | Primer | nucleotide (5'-3') |
9 | hisGW_CF | AGTTCATTGTACAATGATGAGCG |
10 | hisGW_CR | AGCCGCCAGGAATATACAAC |
서열번호 | Primer | nucleotide (5'-3') |
9 | hisGW-CF | AGTTCATTGTACAATGATGAGCG |
10 | hisGW-CR | AGCCGCCAGGAATATACAAC |
11 | 232K-R | TTTCATCATGATGTATTTTGATTCGCGC |
12 | 232K-F | GCGCGAATCAAAATACATCATGATGAAA |
13 | 232E-R | TTCCATCATGATGTATTTTGATTCGCGC |
14 | 232E-F | GCGCGAATCAAAATACATCATGATGGAA |
15 | 240K-R | TTTATCCAGACGTTCGGTCGGT |
16 | 240K-F | ACCGACCGAACGTCTGGATAAA |
17 | 248F-R | GAAACCTGGCAGCAGGGCGA |
18 | 248F-F | TCGCCCTGCTGCCAGGTTTC |
19 | 252A-R | CCCGCCAGCGGCAGAATCGC |
20 | 252A-F | GCGATTCTGCCGCTGGCGGG |
21 | 250H-R | CCGCCAGCGGCAGAATAGTTGGATG |
22 | 250H-F | CATCCAACTATTCTGCCGCTGGCGG |
23 | 250E-R | CCGCCAGCGGCAGAATAGTTGGTTC |
24 | 250E-F | GAACCAACTATTCTGCCGCTGGCGG |
25 | 252L-R | CCGCCAGCGGCAGAATCAATGGGCG |
26 | 252L-F | CGCCCATTGATTCTGCCGCTGGCGG |
27 | 252P-R | CCGCCAGCGGCAGAATCGGTGGGCG |
28 | 252P-F | CGCCCACCGATTCTGCCGCTGGCGG |
29 | 252Q-R | CCGCCAGCGGCAGAATCTGTGGGCG |
30 | 252Q-F | CGCCCACAGATTCTGCCGCTGGCGG |
31 | 271K-R | TTTGCTGCTGACCATGTGCA |
32 | 271K-F | TGCACATGGTCAGCAGCAAA |
33 | 288P-R | CGGACTGGCACCCAGCGCTTTCA |
34 | 288P-F | TGAAAGCGCTGGGTGCCAGTCCG |
35 | 288K-R | CTTACTGGCACCCAGCGCTTTCA |
36 | 288K-F | TGAAAGCGCTGGGTGCCAGTAAG |
37 | 232T-R | TGTCATCATGATGTATTTTGATTCGCGC |
38 | 232T-F | GCGCGAATCAAAATACATCATGATGACA |
39 | hisG_HF-F | GCTCATTCATTAAACAAATCCATTGC |
40 | hisG_HF-R | TTTGTTATTCCTCTTTAAACCTGTC |
41 | FR(hisG)-F | GTTTAAAGAGGAATAACAAAGTGTAGGCTGGAGCTGCTTC |
42 | FR(hisG)-R | CCAGATCAATTCGCGCTAACTCTGTCAAACATGAGAATTAA |
43 | hisG+FR-F | TTAATTCTCATGTTTGACAGAGTTAGCGCGAATTGATCTGG |
44 | hisG+HR-R | TGTGTTAAAGCTCATGGCGATCACTCCATCATCTTCTCAATCG |
45 | hisG_HR-F | TCGCCATGAGCTTTAACACAA |
46 | hisG_HR-R | AGTGTGGAAGGTTTCAATATTCTT |
균주명 | L-histidine (%) | 배양시간(hr) | 히스티딘 생산량 |
DS9H | 0.78 | 72 | - |
DS9H_△hisG::hisG_H232K | 0.95 | 72 | 증가 |
DS9H_△hisG::hisG_H232T | 0.99 | 72 | 증가 |
DS9H_△hisG::hisG_R250H | 1.31 | 72 | 증가 |
DS9H_△hisG::hisG_T252A | 1.06 | 72 | 증가 |
DS9H_△hisG::hisG_T252L | 1.09 | 72 | 증가 |
DS9H_△hisG::hisG_E271K | 1.05 | 72 | 증가 |
DS9H_△hisG::hisG_S288P | 1.14 | 72 | 증가 |
DS9H_△hisG::hisG_H232E | 0.74 | 72 | 감소 |
DS9H_△hisG::hisG_E240K | 0.69 | 72 | 감소 |
DS9H_△hisG::hisG_A248F | 0.65 | 72 | 감소 |
DS9H_△hisG::hisG_R250E | 0.82 | 72 | 유의한 변화없음 |
DS9H_△hisG::hisG_T252P | 0.79 | 72 | 유의한 변화없음 |
DS9H_△hisG::hisG_T252Q | 0.77 | 72 | 유의한 변화없음 |
DS9H_△hisG::hisG_S288K | 0.80 | 72 | 유의한 변화없음 |
서열번호 | Primer | nucleotide (5'-3') |
47 | hisG-F | ATATGAATTCATGACAGACAACACTCGTTTACG |
48 | hisG-R | ATATAAGCTTTCACTCCATCATCTTCTCAATCGGCAGGACCAGAATCGG |
11 | 232K-R | TTTCATCATGATGTATTTTGATTCGCGC |
12 | 232K-F | GCGCGAATCAAAATACATCATGATGAAA |
19 | 252A-R | CCCGCCAGCGGCAGAATCGC |
20 | 252A-F | GCGATTCTGCCGCTGGCGGG |
49 | 271K-R2 | ATATAGCGCTTTCAGTTTTTCCATGGTTTCCCAGAACAGGGTTTT |
50 | hisG-CF | ATATTCTGAAATGAGCTGTTGACAA |
51 | hisG-CR | TACTGCCGCCAGGCAAATTC |
서열번호 | Primer | nucleotide (5'-3') |
47 | hisG-F | ATATGAATTCATGACAGACAACACTCGTTTACG |
48 | hisG-R | ATATAAGCTTTCACTCCATCATCTTCTCAATCGGCAGGACCAGAATCGG |
37 | 232T-R | TGTCATCATGATGTATTTTGATTCGCGC |
38 | 232T-F | GCGCGAATCAAAATACATCATGATGACA |
50 | hisG-CF | ATATTCTGAAATGAGCTGTTGACAA |
51 | hisG-CR | TACTGCCGCCAGGCAAATTC |
52 | 250H+252L-R | CCGCCAGCGGCAGAATCAATGGATG |
53 | 250H+252L-F | CATCCATTGATTCTGCCGCTGGCGG |
서열번호 | Primer | nucleotide (5'-3') |
39 | hisG_HF-F | GCTCATTCATTAAACAAATCCATTGC |
40 | hisG_HF-R | TTTGTTATTCCTCTTTAAACCTGTC |
41 | FR(hisG)-F | GTTTAAAGAGGAATAACAAA GTGTAGGCTGGAGCTGCTTC |
42 | FR(hisG)-R | CCAGATCAATTCGCGCTAACTCTGTCAAACATGAGAATTAA |
43 | hisG+FR-F | TTAATTCTCATGTTTGACAGAGTTAGCGCGAATTGATCTGG |
44 | hisG+HR-R | TGTGTTAAAGCTCATGGCGATCACTCCATCATCTTCTCAATCG |
45 | hisG_HR-F | TCGCCATGAGCTTTAACACAA |
46 | hisG_HR-R | AGTGTGGAAGGTTTCAATATTCTT |
9 | hisGW-CF | AGTTCATTGTACAATGATGAGCG |
10 | hisGW-CR | AGCCGCCAGGAATATACAAC |
성분 | 농도 |
Tris-HCl (pH 8.1) | 100 mM |
염화칼륨 | 100 mM |
염화마그네슘 | 10 mM |
ATP | 5 mM |
PRPP | 1 mM |
pyrophosphatase | 10mU |
ATP phosphoribosyltransferase | 500 nM |
histidine | 0 mM, 0.5 mM, 1 mM, 5 mM, 10 mM, 25 mM, 50 mM |
성분 | 농도 |
포도당 | 8% |
황산마그네슘 | 0.1% |
황산암모늄 | 2.0% |
MSG | 0.1% |
일인산칼륨 | 0.1% |
효모추출물 | 0.1% |
황산칼륨 | 0.02% |
티아민-HCl | 20 ppm |
니코틴산 | 10 ppm |
황산철 | 5 ppm |
황산아연 | 5 ppm |
황산망간 | 5 ppm |
탄산칼슘 (별도멸균) | 5.0% |
균주명 | L-histidine (%) | 배양시간(hr) |
DS9H | 0.78 | 72 |
DS9H_△hisG::hisG_SDM4(H232K, T252A, E271K, S288P) | 1.20 | 72 |
DS9H_△hisG::hisG_SDM7(H232T, R250H, T252L, E271K, S288P) | 1.50 | 72 |
Claims (7)
- 서열번호 1의 아미노산 서열로 이루어지는 ATP-포스포리보실전이효소에서,271번째 위치한 글루타민산이 라이신으로 치환된 ATP-포스포리보실전이효소 변이체.
- 제1항에 있어서,상기 ATP-포스포리보실전이효소는 대장균(E. coli)의 hisG 유전자로부터 발현된, 변이체.
- 제1항에 있어서,상기 변이체는 히스티딘에 의한 피드백 억제가 감소하는, 변이체.
- 제1항에 있어서,하기 아미노산 치환 중 하나 이상을 더 포함하는 변이체:(a) 232번째에 위치한 히스티딘이 라이신 또는 트레오닌으로 치환(b) 250번째에 위치한 아르기닌이 히스티딘으로 치환(c) 252번째 위치한 트레오닌이 알라닌, 루신, 글라이신, 발린, 또는 이소루신으로 치환(d) 288번째 위치한 세린이 프롤린으로 치환.
- 제1항의 ATP-포스포리보실전이효소 변이체를 발현하는 형질전환 균주.
- 제5항에 있어서,상기 균주는 대장균인, 형질전환 균주.
- 제5항의 균주를 배양하는 단계를 포함하는 히스티딘 생산방법.
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US18/269,689 US20240060103A1 (en) | 2020-12-28 | 2021-04-26 | Atp-prt variant with reduced feedback inhibition by histidine, and histidine-producing strain expressing same |
JP2023539354A JP2024501040A (ja) | 2020-12-28 | 2021-04-26 | ヒスチジンによるフィードバック抑制が減少したatp-prt変異体およびこれを発現するヒスチジン生産菌株 |
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US7300786B2 (en) * | 2003-07-16 | 2007-11-27 | Ajinomoto Co., Inc. | Bacteria of the Enterobacteriaceae family having enhanced transaldolase activity |
KR101904666B1 (ko) * | 2017-08-02 | 2018-11-29 | 씨제이제일제당 (주) | Atp 포스포리보실기 전이효소 변이체 및 이를 이용한 l-히스티딘 생산방법 |
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KR101904666B1 (ko) * | 2017-08-02 | 2018-11-29 | 씨제이제일제당 (주) | Atp 포스포리보실기 전이효소 변이체 및 이를 이용한 l-히스티딘 생산방법 |
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DATABASE PROTEIN 7 June 2013 (2013-06-07), ANONYMOUS: "ATP phosphoribosyltransferase, partial [Escherichia coli MS 196-1]", XP055947101, retrieved from GENBANK Database accession no. EFI90688 * |
DOROSHENKO V. G.; LOBANOV A. O.; FEDORINA E. A.: "The directed modification ofEscherichia coliMG1655 to obtain histidine-producing mutants", APPLIED BIOCHEMISTRY AND MICROBIOLOGY, vol. 49, no. 2, 26 February 2013 (2013-02-26), US , pages 130 - 135, XP035340162, ISSN: 0003-6838, DOI: 10.1134/S0003683813020026 * |
MALYKH EVGENIYA A., BUTOV IVAN A., RAVCHEEVA ANNA B., KRYLOV ALEXANDER A., MASHKO SERGEY V., STOYNOVA NATALIYA V.: "Specific features of l-histidine production by Escherichia coli concerned with feedback control of AICAR formation and inorganic phosphate/metal transport", MICROBIAL CELL FACTORIES, vol. 17, no. 42, 1 December 2018 (2018-12-01), pages 1 - 15, XP055918153, DOI: 10.1186/s12934-018-0890-2 * |
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