CN105925697B - A kind of Pseudococcidae insect genes barcode detection kit and its detection method - Google Patents
A kind of Pseudococcidae insect genes barcode detection kit and its detection method Download PDFInfo
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Abstract
The invention discloses a kind of Pseudococcidae insect genes barcode detection technologies, can quickly detect 21 kinds of mealybugs, including at least primer PseJ/PseN reagents and genetic barcode sequence disk more than 20 dosages;Primer PseJ sequence: 5'-CCTTCAACTAATCATAAAAATATNAG-3', primer PseN sequence: 5'-TAAACTTCT GGATGTCCAAAAAATCA-3';The genetic barcode sequence has taken inventory 93 standard sequence of barcodes, and detailed sequence is shown in SEQ ID NO.1 to SEQ ID NO.93.Pseudococcidae insect genes barcode detection technology of the invention is a kind of efficient, accurate, convenient and fast Pseudococcidae insect molecular detection technology, can distinguish 21 kinds of castes of Pseudococcidae in molecular level, be able to satisfy use demand.
Description
Technical field
The present invention relates to a kind of PCR detection kit and its detection method more particularly to a kind of Pseudococcidae insect genes items
Shape code detection kit and its detection method, belong to technical field of plant quarantine.
Background technique
Mealybug is the plant-feed insect of a kind of distribution extensively, more than host, in addition to small part is resource insect, mostly in agriculture and forestry
The universal and serious pest (Ben-Dov, 2002) of harm occurs.The adult and nymph of the monoid are mainly tender in the children of host plant
Position feeding harm, causes growth potential weak;Also pathogenic microorganism, which can be propagated, leads to the generation of plant disease large area;In addition worm
The honeydew of body discharge often leads to the generation of dark mildew, photosynthesis is influenced, to the ecology influence of agriculture and forestry production, urban landscape etc.
It is huge.
For a long time, the operability and accuracy of the Pseudococcidae sort research based on morphological feature are constantly subjected to query.Powder
The a red-spotted lizard bodily form is smaller or small, the rarely seen male worm of some types, limited for the morphological feature that compares;The Individual Size of mealybug, just
The typoiogical classification feature that staple length is short, the presence or absence of transparent apertures etc. are important is unstable, is easily affected by and changes
(Qi Xiaofeng, 2002);Traditional coccid typoiogical classification is more demanding to professional standing and experience simultaneously, only systematicalian or warp
The personnel for crossing special training could effectively carry out this work;In addition, traditional Morphology of entomology identification method must with completely at
Worm is difficult to carry out by morphological feature fast and effective as Senile Mouse object, nymph, ovum with situations such as incomplete polypide
Ground identification (Kondo, 2008;Utsugi, 2011).
In recent years, insect molecular biology develops rapidly, in the application of two aspects of Molecular Identification and phylogeny
It is relatively broad, by study insect structural nucleic acid molecule seek affiliation between each monoid and evolutionary relationship (Fr é zal,
2008, Zheng Sizhu, 2015).Using Protocols in Molecular Biology, genetic structure in Natural Population, gene flow can be effectively disclosed
The problems such as dynamic and selection index system, new technology and methods (Wei Yihan, 2105) is provided for the taxonomic identification of mealybug.Especially DNA
The appearance of bar codes technique, more and more research staff joined DNA bar code technical research ranks, and the field is made to become life
One of the hot spot of object research (Hebert, 2006).He Yanbiao etc. (2007) is to ocean stern line mealybug, citrus stern line mealybug, nothing
Flowers and fruits stern line mealybugPlanococcus ficusDeng 3 kinds of sibling species mealybugs mtDNA COI sequence and 18S and
28S gene order carries out research discovery coccid COI gene order degree of variation and is higher than other genes;Park etc. (2011) passes through
The forward primer for redesigning COI gene order, has carried out the study on the efficiency of species identification to Diaspididae and Pseudococcidae, discloses
Characteristic (the Deng of scale insect DNA bar code sequence nucleotide compositionet al., 2012);Saccaggi etc. (2008)
It is analyzed successfully by mtDNA COI gene sequence characteristic by grape silk floss mealybugPlanococcus ficus, citrus stern line mealybug and
Long tailed mealybugPseudococcus longispinusIt is distinguished.But these data are still far not achieved solves Pseudococcidae kind extensively
The problem of class precise Identification.
DNA bar code technology is expanded using one section or a few segment standards, easily, interspecific difference is noticeably greater than intraspecies variation
DNA fragmentation identify the new technologies of species, which is proposed by Canadian scholar Hebert earliest.With traditional taxonomic identification
Technology is compared, and DNA bar code technology has the advantages that many incomparable: (1) it is easy to operate, species taxonomy identification knowledge is lacked
Weary people can also identify species by standard technique process;(2) not by the limit of soil individual development and morphological feature
System, as long as there are complete target DNA fragments can meet qualification requirement for individual;(3) technology can be used as traditional taxonomy
Supplementary means, help traditional classification scholar to correct previous classification conclusion, solve the insurmountable problem of typoiogical classification.Exactly
Since DNA bar code technology has above and other lot of advantages, more and more research staff joined DNA bar code technology
Ranks are studied, the field is made to become one of the hot spot of biological study (Hebert, 2006).But the gene bar code about mealybug
Fast Detection Technique research, domestic and international relevant system report are still few.Therefore, accurately and reliably mealybug bar code is established to examine
Survey technology not only has great importance to China's quarantine departments, even more the supplement to China's genetic resources, especially mealybug evil
The supplement of worm resource can make certain contribution in terms of fighting for limited resource for China, while also reflect for the classification of mealybug
New method is provided surely.
Summary of the invention
It is an object of the invention to solve above-mentioned technical problem, a kind of Pseudococcidae insect genes bar code inspection is provided
Test agent box and its detection method.
The purpose of the present invention is achieved through the following technical solutions:
A kind of Pseudococcidae insect genes barcode detection kit includes at least a genetic barcode sequence disk and 20 use
More than amount primer PseJ and primer PseN;The primer PseJ and primer PseN Serial No.,
PseJ:5'- CCTTCAACTAATCATAAAAATATNAG -3';
PseN:5'-TAAACTTCTGGATGTCCAAAAAATCA-3;
There are 93 standard sequence of barcodes, the standard sequence of barcodes such as SEQ ID in the genetic barcode sequence disk
Shown in NO.1 to SEQ ID NO.93.
Preferably, the kit further includes the following reagent of 20 dosages or more: Taq buffer, MgCl2, dNTP
Mix, Taq DNA polymerase, ddH2O, DNA standard sample.
Preferably, a kind of detection method of Pseudococcidae insect genes barcode detection kit, is carried out with the kit
Amplification the following steps are included:
The preparation of S1, DNA profiling: examination is extracted using GenMagBio zooblast tissue/cell genomic DNA paramagnetic particle method
Agent box extracts sample to be tested;
The amplification of S2, DNA bar code sequence: using the DNA test sample in S1 as template, using primer PseJ and primer
PseN carries out PCR amplification, the primer PseJ and primer PseN Serial No.,
PseJ:5'- CCTTCAACTAATCATAAAAATATNAG -3';
PseN:5'-TAAACTTCTGGATGTCCAAAAAATCA-3;The PCR reaction system uses standards system, overall
Product is 50 μ L or 25 μ L;
The PCR reaction condition: 95 DEG C of initial denaturation 4min;35 circulations: 94 DEG C of deformation 1min, 48 DEG C of annealing 1min, 72
DEG C extend 90s;Last 72 DEG C of extensions 4min, 4 DEG C of preservations;
S3,8 μ L samples to be tested of mixing and 2 μ L 6 × Glycerol DNA sample-loading buffer loadings, with DNA Marker
DL100 is molecular weight marker, at room temperature 120 V of constant pressure, with the EB dye of 3% agarose gel electrophoresis 45min, 0.5% μm of ol/L
Color, gel imaging system test sample, photographic analysis;
S4, PCR result judgement:
8 μ L PCR products and 2 μ L 6 × Glycerol DNA sample-loading buffer loadings are mixed, with DNA Marker
DL100 is molecular weight marker, at room temperature 120 V of constant pressure, and with 3 % agarose gel electrophoresis 45 minutes, the EB of 0.5% μm of ol/L contaminated
Color, gel imaging system test sample, takes pictures;Photo shows that mealybug has with standard DNA sample in the position 700bp and clearly expands
Band, as target stripe;
The sequencing of S5, RCR product obtains gene order;
S6, Pseudococcidae insect genes compare
The sequence that mealybug to be measured is sequenced is compared with genetic barcode sequence disk Plays gene sequence of barcodes,
If alignment similarity 100%, assert it for the type;It up to 100%, is then carried out when not with any standard bar code sequence similarity
The comparison of amino acid genetic distance determines whether in target zone.
Preferably, the PCR reaction system is 50 μ L, wherein containing KCl, 2mmol/L containing 5 μ 10 × Taq of L buffer
MgCl2, 200 μm of ol/L dNTP mix, 2U Taq DNA polymerase, 3 μ L DNA profilings, each 1 μm of ol/L of primer;
The PCR reaction system is 25 μ L, wherein 2 μ L of template DNA, contains Mg2+10 × reaction buffer, 2.5 μ L,
2 μ L, 5pmol/L upstream primer of dNTPs 0.2mmol/L and each 1 μ L of downstream primer, 1.0 U Taq archaeal dna polymerase, 0.2 μ L,
Sterile water is mended to 25 μ L.
Preferably, the sample in the S1 is the clean mealybug of pineapple, Lee's Bi Lishi ash mealybug, grey mealybug belong to a kind ofDysmicoccus neobrevipes, duckweed silk floss mealybug, Phenacoccus it is a kind ofPhenacoccus avenae, Phenacoccus it is a kind ofPhenacoccus parvus, short-tube lycoris silk floss mealybug, Japan silk floss mealybug, tangerine stern line mealybug, stern line mealybug belong to a kind ofPlanococcus ficus, Japanese stern line mealybug, stern line mealybug belong to a kind ofPlanococcus lilacinus, stern line mealybug belong to a kind ofPlanococcus minor, stern line mealybug belong to a kind ofPlanococcus vovae, mealybug belong to a kind ofPseudococcus baliteus, sugarcane root mealybug, Kang Shi mealybug, mealybug belong to a kind ofPseudococcus cryptus, Jack Bei Ershi mealybug, quasi- length
Tail mealybug, mealybug belong to a kind ofPseudococcus viburni。
Preferably, the S6 Pseudococcidae insect genes comparison result includes the following steps,
S61, when obtained sequence and standard gene sequence of barcodes similarity 100%, then assert it for the type;
S62, when not with any standard bar code sequence similarity up to 100%, then by mealybug gene order to be measured press " no ridge
Vertebrate codon " is translated as amino acid, uses " P-distance with amino acid sequence corresponding to standard gene sequence of barcodes
Model " calculates genetic distance, if the standard gene bar code type with unknown type mealybug gene order genetic distance less than 1%, i.e.,
For targeted species;If genetic distance is both greater than 1%, determine unknown mealybug type not within the scope of this 21 kinds of mealybugs.
The beneficial effects are mainly reflected as follows: (1) target gene short, reduces the demand tested to specimen quality,
Amplification efficiency is high;(2) inter-species variation is big and intraspecific variablity is small, to distinguish different plant species;Comprising enough phyletic evolution information with
Position of the species in categorizing system is positioned, use demand is able to satisfy.(3) easy to operate, lack of knowledge is identified to species taxonomy
People Pseudococcidae species can also be identified by standard technique process;(4) not by soil individual development and morphological feature
Limitation, as long as there are complete target DNA fragments can meet qualification requirement for individual.
Detailed description of the invention
Technical scheme of the present invention is further explained with reference to the accompanying drawing:
Fig. 1: primer PseJ/PseN amplification of Japan silk floss mealybug, three kinds of short-tube lycoris silk floss mealybug, Kang Shi mealybug mealybug samples is tied
Fruit figure.
Fig. 2: the sample amplification band schematic diagram in embodiment.
Specific embodiment
Present invention discloses a kind of Pseudococcidae insect genes barcode detection kit and its detection method, this method can be high
It imitates, is accurate, convenient and fast Pseudococcidae insect molecular detection technology, can distinguish 21 kinds of castes of Pseudococcidae in molecular level, energy
It satisfies the use demand.
A kind of Pseudococcidae insect genes barcode detection kit, can quickly detect 21 kinds of mealybugs, and the mealybug is specific
As shown in table 1, the kit includes at least primer PseJ/PseN examination of genetic barcode sequence disk and 20 dosages or more
Agent:
Primer PseJ sequence: 5'- CCTTCAACTAATCATAAAAATATNAG -3',
Primer PseN sequence: 5'- TAAACTTCT GGATGTCCAAAAAATCA-3';
The genetic barcode sequence has taken inventory 93 standard sequence of barcodes, and detailed sequence is SEQ ID NO.1 to SEQ
Shown in ID NO.93.
Table 1: mealybug type and title
Serial number | Sample title | Latin name |
1 | The clean mealybug of pineapple | Dysmicoccus brevipes |
2 | Lee's Bi Lishi ash mealybug | Dysmicoccus lepelleyi |
3 | Grey mealybug belongs to a kind of | Dysmicoccus neobrevipes |
4 | Duckweed silk floss mealybug | Phenacoccus aceris |
5 | Phenacoccus is a kind of | Phenacoccus avenae |
6 | Phenacoccus is a kind of | Phenacoccus parvus |
7 | Short-tube lycoris silk floss mealybug | Phenacoccus solani |
8 | Japan silk floss mealybug | Phenacoccus solenopsis |
9 | Tangerine stern line mealybug | Planococcus citri |
10 | Stern line mealybug belongs to a kind of | Planococcus ficus |
11 | Japanese stern line mealybug | Planococcus kraunhiae |
12 | Stern line mealybug belongs to a kind of | Planococcus lilacinus |
13 | Stern line mealybug belongs to a kind of | Planococcus minor |
14 | Stern line mealybug belongs to a kind of | Planococcus vovae |
15 | Mealybug belongs to a kind of | Pseudococcus baliteus |
16 | Sugarcane root mealybug | Pseudococcus calceolariae |
17 | Kang Shi mealybug | Pseudococcus comstocki |
18 | Mealybug belongs to a kind of | Pseudococcus cryptus |
19 | Jack's Bei Ershi mealybug | Pseudococcus jackbeardsleyi |
20 | Quasi- long tailed mealybug | Pseudococcus longispinus |
21 | Mealybug belongs to a kind of | Pseudococcus viburni |
Preferably, the kit further includes the following reagent of 20 dosages or more: Taq buffer, MgCl2, dNTP
Mix, Taq DNA polymerase, ddH2O, DNA standard sample.
Lower detection and differentiating method using the kit detailed below:
Six parts of Japan silk floss mealybug, short-tube lycoris silk floss mealybug, Kang Shi mealybug, Callosobruchus maculatus, dermestes maculatus, ceroplastes rubens samples are chosen to make
For sample to be tested.Steps are as follows:
1) Genome DNA extraction
The extraction of DNA is carried out using GenMagBio zooblast tissue/cell genomic DNA magnetic bead extracts kit
It extracts.Detailed process is as follows:
1-2 insect specimens are directly put into 2mm test tube, soaked in absolute ethyl alcohol, which saves sample and rinsed with sterile distilled water, soaks
Bubble 4 ~ 5 times abandons water;Exsiccata sterile distilled water impregnates suck dry moisture after 3h.It is placed in 2mL centrifuge tube, is shaken in MM400 ball milling instrument
Mill (30 times/s) 30s, and 180 μ L Lysis Buffer, 20 μ L Proteinase K are added, and concussion mixes, ambient temperature overnight, and 55
DEG C concussion warm bath 3-5h, 12000rpm are centrifuged 10min, take supernatant, and 200 μ L Binding Buffer and the 200 anhydrous second of μ L are added
Alcohol mixes well, and 20 μ L magnetic beads are added, and gentle inversion mixes 10min.Centrifuge tube is placed in magnetic frame, inhales and abandons liquid in pipe, retains
Magnetic bead, Wash Buffer 500uL are mixed by inversion 2min and are placed in magnetic frame, discard liquid in pipe, and Wash Buffer II is same
Sample washes twice, and centrifuge tube is still placed on magnetic frame, is slowly added to Wash Buffer III, removes liquid in pipe after 1min.Add
Enter 20 μ L Elution Buffer, the DNA adsorbed on 55 DEG C of water-bath 10min elution magnetic beads, 4 DEG C store for future use.
2) sequence amplification and measurement
PCR reaction system: total volume is 50 μ L, wherein containing 5 μ L 10 × Taq buffer with KCl, 2 mmol/L
MgCl2, 200 μm of ol/L dNTP mix, 2 U Taq DNA polymerases, 3 μ L DNA profilings, each 1 μm of ol/L of primer;
The PCR reaction system is 25 μ L, wherein 2 μ L of template DNA, contains Mg2+10 × reaction buffer, 2.5 μ L,
2 μ L, 5pmol/L upstream primer of dNTPs 0.2mmol/L and each 1 μ L of downstream primer, 1.0 U Taq archaeal dna polymerase, 0.2 μ L,
Sterile water is mended to 25 μ L.
Reaction condition: 95 DEG C of initial denaturation 4min;35 circulations: 94 DEG C of deformation 1min, 48 DEG C of annealing 1min, 72 DEG C extend
90s;Last 72 DEG C of extensions 4min, 4 DEG C of preservations;
8 μ L samples to be tested and 2 μ L 6 × Glycerol DNA loading Buffer loadings are mixed, with DNA
Marker DL100 is molecular weight marker, at room temperature 120 V of constant pressure, with 3% agarose gel electrophoresis, 45 min, 0.5% μm of ol/L
EB dyeing, carry out gel imaging system test sample, take pictures, analyze;
Electrophoretogram, as shown in Fig. 2, in figure 1 be Japan silk floss mealybug;2 be short-tube lycoris silk floss mealybug in figure;3 be Kang Shi mealybug in figure;
4 be Callosobruchus maculatus in figure;5 be dermestes maculatus in figure;6 be ceroplastes rubens in figure.
In six samples, three kinds of mealybugs, ceroplastes rubens amplify the band of 700bp size, Callosobruchus maculatus, dermestes maculatus do not expand
Increase shaping band, both of exclusion meet reality not within Pseudococcidae insect, and it is accurate to exclude.
The product of band is amplified above using PCR primer as sequencing primer, bidirectional sequencing is carried out, by Suzhou Jin Weizhi
Biotechnology Co., Ltd completes.
3) gene compares
Using existing comparison software and computer technology, the sequence results that unknown type mealybug is sequenced and gene
Bar code sequence disk Plays gene sequence of barcodes is compared, and concrete outcome is run in the following manner:
A: when sequence and standard gene sequence of barcodes similarity 100%, then assert it for the type;
B: when sequence not with any standard bar code sequence similarity up to 100%, then unknown type mealybug gene order is pressed
" invertebrate codon " is translated as amino acid, uses " P-distance model " with the amino acid sequence of standard gene bar code
Calculate genetic distance, the standard gene bar code type with unknown type mealybug gene order genetic distance less than 2%, as target
Type;If genetic distance is both greater than 1%, illustrate unknown mealybug type not within the scope of this 21 kinds of mealybugs.
Accuracy detection:
5 sequences of gained sequentially input genetic barcode sequence disk and carry out calculating ratio pair, as a result as follows:
1) short-tube lycoris silk floss mealybug sequence and paddy spot mealybug standard bar code gene similarity in sequence disk are 100%, and qualification result is quasi-
Really.
2) Japan silk floss mealybug sequence and Japan silk floss mealybug standard bar code gene similarity in sequence disk are 98%, with sequence disk
Middle Japan silk floss mealybug standard bar code gene genetic distance 0.2%, regards as Japan silk floss mealybug, qualification result by result confirmative rules
Accurately.
3) Kang Shi mealybug sequence and Kang Shi mealybug standard bar code gene similarity in sequence disk are 98% ~ 100%, with sequence disk
In Kang Shi mealybug standard bar code gene genetic distance between 0% ~ 0.88%, regard as Kang Shi mealybug by result confirmative rules,
Qualification result is accurate.
4) ceroplastes rubens and mealybug standard bar code gene genetic distance in sequence disk are 31.9% ~ 39.7%, are much larger than 2%, press and tie
Fruit confirmative rules assert non-21 kinds of mealybugs.
All results are consistent with the specimen types for examination, as a result meet the requirements, show the kit can with precise Identification this 3
Kind mealybug.
Still there are many specific embodiment, all skills formed using equivalent replacement or equivalent transformation by the present invention
Art scheme, all falls within the scope of protection of present invention.
NO.1: Dysmicoccus brevipes 1 of SEQ ID
TTTTTTTTATAACTATACCAATTATTATTGGAAGATTAAGTAATTGATTATTACCTTTAATATTAATAT
CAAGAGATTTAATATTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATACCTTCATTAATGTTTATATTATTA
AATATATTATTAAGAGATAATATTGATACTGGATGAACATTATATCCTCCTTTAATTAATCAAAATTTTTTCACTTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGTTTATCATCAATTTTTAGTTCAATTAATTTTATTGTTTCTATTT
TTATTATTAATAATAATAATTTTTTTTTAAATAATTTAACTTTATATATTTGATCTATTATTATTACTACTATTTTA
CTTATTATTTCTATTCCTATTTTATCAAGAGCTATTACTATAATTATTTTAGATAAAAATTTCAATATAAATTTTTT
TAATCCTTTAGGAAATGGAAATCCTATTCTTTATCAACATTTATTT
SEQ ID NO.2:Dysmicoccus brevipes 2
TTTTTTTTATAACTATACCAATTATTATTGGAAGATTAAGTAATTGATTATTACCTTTAATATTAATAT
CAAGAGATTTAATATTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATACCTTCATTAATGTTTATATTATTA
AATATATTATTAAGAGATAATATTGATACTGGATGAACATTATATCCTCCTTTAATTAATCAAAATTTTTTCACTTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGTTTATCATCAATTTTTAGTTCAATTAATTTTATTGTTTCTATTT
TTATTATTAATAATAATAATTTTTTTTTAAATAATTTAACTTTATATATTTGATCTGTTATTATTACTACTATTTTA
CTTATTATTTCTATTCCTATTTTATCAAGAGCTATTACTATAATTATTTTAGATAAAAATTTCAATATAAATTTTTT
TAATCCTTTAGGAAATGGAAATCCTATTCTTTATCAACATTTATTT
SEQ ID NO.3:Dysmicoccus brevipes 3
TTTTTTTTATAACTATACCAATTATTATTGGAAGATTAAGTAATTGATTATTACCTTTAATATTAATAT
CAAGAGATTTAATATTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATACCTTCCTTAATATTTATATTATTA
AATATATTATTAAGAGATAATATTGATACTGGATGAACATTATATCCTCCTCTAATTAATCAAAATTTTTTTACTTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGTTTATCATCAATTTTTAGTTCAATTAATTTTATTGTTTCTATTT
TTATTATTAATAATAATAATTTTTTTATTAATGATTTAACTTTATATATTTGATCTATTATTATTACTACTATTTTA
CTTATTATTTCTATTCCTATTTTATCAAGAGCTATTACTATAATTATTTTAGATAAAAATTTTAATATAAATTTCTT
TAATCCTTTAGGAAATGGAAATCCTATTCTTTATCAACATTTATTT
SEQ ID NO.4:Dysmicoccus brevipes 4
TTTTTTTTATAACTATACCAATTATTATTGGAAGATTAAGTAATTGATTATTACCTTTAATATTAATAT
CAAGAGATTTAATATTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATACCTTCATTAATGTTTATATTATTA
AATATATTATTAAGAGATAATATTGATACGGGATGAACATTATATCCTCCTTTAATTAATCAAAATTTTTTCACTTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGTTTATCATCAATTTTTAGTTCAATTAATTTTATTGTTTCTATTT
TTATTATTAATAATAATAATTTTTTTTTAAATAATTTAACTTTATATATTTGATCTATTATTATTACTACTATTTTA
CTTATTATTTCTATTCCTATTTTATCAAGAGCTATTACTATAATTATTTTAGATAAAAATTTCAATATAAATTTTTT
TAATCCTTTAGGAAATGGAAATCCTATTCTTTATCAACATTTATTT
SEQ ID NO.5:Dysmicoccus brevipes 5
TTTTTTTTATAACTATACCAATTATTATTGGAAGATTAAGTAATTGATTATTACCTTTAATATTAATAT
CAAGAGATTTAATATTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATACCTTCATTAATGTTTATATTATTA
AATATATTATTAAGAGATAATATTGATACTGGATGAACATTATATCCTCCTTTAATTAATCAAAATTTTTTCACTTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGTTTATCATCAATTTTTAGTTCAATTAATTTTATTGTTTCTATTT
TTATTATTAATAATAATAATTTTTTTTTAAATAATTTAACTTTATATATTTGATCTATTATTATTACTACTATTTTA
CTTATTATTTCTATTCCTATTTTATCAAGAGCTATTACTATAATTATTTTAGATAAAAATTTCAATATAAATTTTTT
TAATCCTTTAGGAAATGGAAATCCTATTCTTTATCAACATTTATTT
SEQ ID NO.6:Dysmicoccus lepelleyi 1
TTTTTTTTATAACTATACCAATCATTATTGGAAGATTAAGTAATTGACTTTTACCTCTAATATTAATAT
CATCAGATTTAATTTTTCCACGTTTAAATAATTTTAGATTTTGATTATTAATTCCTTCTTTAATTTTAATAATATTA
AATATAATTTTATTAAATAATATTAATACTGGATGAACATTATACCCTCCTTTAATTAATCAAAACTTTATTACATT
AAATTTTATTATTTTTTCCCTTCATTTAAATGGTATTTCTTCAATTTTTAGATCAATCAATTTTATTTCATCAATTT
TTATTATTAATAATAACAATTTTTTTTTAAATAATATTTCATTATATATTTGATCGATTATTGTTACAACAATTTTA
TTAATTATTTCTATTCCAATTTTATCAAGAGCAATTACTATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGTAACCCTATTTTATATCAACATTTATTT
SEQ ID NO.7:Dysmicoccus lepelleyi 2
TTTTTTTTATAACTATACCAATCATTATTGGAAGATTAAGTAATTGACTTTTACCTCTAATATTAATAT
CATCAGATTTAATTTTTCCACGTTTAAATAATTTTAGATTTTGATTATTAATTCCTTCTTTAATTTTAATAATATTA
AATATAATTTTATTAAATAATATTAATACTGGATGAACATTATACCCTCCTTTAATTAATCAAAACTTTATTACATT
AAATTTTATTATTTTTTCCCTTCATTTAAATGGTATTTCTTCAATTTTTAGATCAATCAATTTTATTTCATCAATTT
TTATTATTAATAATAACAATTTTTTTTTAAATAATATTTCATTATATATTTGATCAATTATTGTTACAACAATTTTA
TTAATTATTTCTATTCCAATTTTATCAAGAGCAATTACTATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGTAACCCTATTTTATATCAACATTTATTT
SEQ ID NO.8:Dysmicoccus lepelleyi 3
TTTTTTTTATAACTATACCAATCATTATTGGAAGATTAAGTAATTGACTTTTACCTCTAATATTAATAT
CATCAGATTTAATTTTTCCACGTTTAAATAATTTTAGATTTTGATTATTAATTCCTTCTTTAATTTTAATAATATTA
AATATAATTTTATTAAATAATATTAATACTGGATGAACATTATACCCTCCTTTAATTAATCAAAACTTTATTACATT
AAATTTTATTATTTTTTCCCTTCATTTAAATGGTATTTCTTCAATTTTTAGATCAATCAATTTTATTTCATCAATTT
TTATTATTAATAATAACAATTTTTTTTTAAATAATATTTCATTATATATTTGATCAATTATTGTTACAACAATTTTA
TTAATTATTTCTATTCCAATTTTATCAAGAGCAATTACTATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGTAACCCTATTTTATATCAACATTTATTT
SEQ ID NO.9:Dysmicoccus neobrevipes 1
TTTTTTTTATAACAATACCTATTATTATTGGTAGTTTAAGAAATTGATTATTACCTTTAATATTAATAT
CTAGAGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATTCCTTCTTTAATATTTATAATAATA
AATATATTATTAAATAATAATATTAATACTGGATGAACTTTATATCCTCCATTAATTAATCAAAATTTTATTACTTT
AAATTTTATTATTTTTTCTCTTCATTTAAATGGAATTTCATCAATTTTTAGATCAATTAATTTTATTGCTTCTATTT
TTATTATTAATAATAATAATTTTTTTATTAATAATTTAACTTTATATATTTGATCTATTATTATTACAACATTTCTA
TTAATTATTTCAATTCCTATTTTATCTAGAGCTATTACTATAATTATTCTTGATAATAATTTTAATATAAATTTTTT
TAATCCTTTAGGTAATGGTAATCCTATTCTTTATCAACATCTATTT
SEQ ID NO.10:Dysmicoccus neobrevipes 2
TTTTTTTTATAACAATACCTATTATTATTGGTAGTTTAAGAAATTGATTATTACCTTTAATATTAATAT
CTAGAGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATTCCTTCTTTAATATTTATAATAATA
AATATATTATTAAATAATAATATTAATACTGGATGAACTTTATATCCTCCATTAATTAATCAAAATTTTATTACTTT
AAATTTTATTATTTTTTCTCTTCATTTAAATGGAATTTCATCAATTTTTAGATCAATTAATTTTATTGCTTCTATTT
TTATTATTAATAATAATAATTTTTTTATTAATAATTTAACTTTATATATTTGATCTATTATTATTACAACATTTCTA
TTAATTATTTCAATTCCTATTTTATCTAGAGCTATTACTATAATTATTCTTGATAATAATTTTAATATAAATTTTTT
TAATCCTTTAGGTGATGGTAATCCTATTCTTTATCAACATCTATTT
SEQ ID NO.11:Phenacoccus aceris 1
TTTTTTTTATAACTATACCTATTATTATTGGTAGATTAGGAAATTGATTAATTCCTTTAATATTATCAT
CTTCAGATTTATTATTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATCCCTTCTCTAATATTAATAATTTTA
AATTCATTTATTAATAATAATATTAATACAGGTTGAACTTTATATCCTCCTCTAATTAATCAAAATTTTATTACATT
AAATTTTATTATCTTTTCCTTACATTTAAATGGAATTTCATCAATTTTTAGATCTATTAATTTTATTACTTCAATTT
TTATAATTAATAATAAAAATTTTTTAACTAAAAATTATTCTTTATATATTTGATCAATTATTGTTACAACAATTTTA
CTTATTTCTTCTATTCCTGTTCTTTCAAGAGCAATTACAATAATTATTTTAGATAATAATTTAAATATAAACTTTTT
TAATCCTCTAGGAAATGGAAATCCAATTTTATACCAACATTTATTC
SEQ ID NO.12:Phenacoccus aceris 2
TTTTTTTTATAACTATACCTATTATTATTGGTAGATTAGGAAATTGACTAATTCCTTTAATATTATCTT
CTTCTGATTTACTATTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATTCCTTCTTTAATATTAATAATTTTA
AATTCTTTTATTAATAATAATATTAATACAGGTTGAACTTTATATCCTCCTTTAATTAACCAAAATTTTATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCATCAATTTTTAGATCAATTAATTTTATTACTTCAATTT
TTATAATCAATAATAAAAATTTTTTAACTAAAAACTATTCTTTATATATTTGATCAATTATTGTTACAACAATTCTA
TTAATTTCATCAATCCCTGTTCTTTCAAGAGCTATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCATTAGGTAATGGAAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.13:Phenacoccus aceris 3
TTTTTTTTATAACTATACCTATTATTATTGGTAGATTAGGAAATTGACTAATTCCTTTAATATTATCTT
CTTCTGATTTACTATTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATTCCTTCTTTAATATTAATAATTTTA
AATTCTTTTATTAATAATAATATTAATACAGGTTGAACTTTATATCCTCCTTTAATTAACCAAAATTTTATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCATCAATTTTTAGATCAATTAATTTTATTACTTCAATTT
TTATAATCAATAATAAAAATTTTTTAACTAAAAACTATTCTTTATATATTTGATCAATTATTGTTACAACAATTCTA
TTAATTTCATCAATCCCTGTTCTTTCAAGAGCTATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCATTAGGTAATGGAAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.14:Phenacoccus aceris 4
TTTTTTTTATAACTATACCTATTATTATTGGTAGATTAGGAAATTGATTAATTCCTTTAATATTATCAT
CTTCAGATTTATTATTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATCCCTTCTCTAATATTAATAATTTTA
AATTCATTTATTAATAATAATATTAATACAGGTTGAACTTTATATCCTCCTCTAATTAATCAAAATTTTATTACATT
AAATTTTATTATCTTTTCCTTACATTTAAATGGAATTTCATCAATTTTTAGATCTATTAATTTTATTACTTCAATTT
TTATAATTAATAATAAAAATTTTTTAACTAAAAATTATTCTTTATATATTTGATCAATTATTGTTACAACAATTTTA
CTTATTTCTTCTATTCCTGTTCTTTCAAGAGCAATTACAATAATTATTTTAGATAATAATTTAAATATAAACTTTTT
TAATCCTCTAGGAAATGGAAATCCAATTTTATACCAACATTTATTC
SEQ ID NO.15:Phenacoccus aceris 5
TTTTTTTTATAACTATACCTATTATTATTGGTAGATTAGGAAATTGATTAATTCCTTTAATATTATCAT
CTTCAGATTTATTATTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATCCCTTCTCTAATATTAATAATTTTA
AATTCATTTATTAATAATAATATTAATACAGGTTGAACTTTATATCCTCCTCTAATTAATCAAAATTTTATTACATT
AAATTTTATTATCTTTTCCTTACATTTAAATGGAATTTCATCAATTTTTAGATCTATTAATTTTATTACTTCAATTT
TTATAATTAATAATAAAAATTTTTTAACTAAAAATTATTCTTTATATATTTGATCAATTATTGTTACAACAATTTTA
CTTATTTCTTCTATTCCTGTTCTTTCAAGAGCAATTACAATAATTATTTTAGATAATAATTTAAATATAAACTTTTT
TAATCCTCTAGGAAATGGAAATCCAATTTTATACCAACATTTATTC
SEQ ID NO.16:Phenacoccus aceris 6
TTTTTTTTATAACTATACCTATTATTATTGGTAGATTAGGAAATTGACTAATTCCTTTAATATTATCTT
CTTCTGATTTACTATTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATTCCTTCTTTAATATTAATAATTTTA
AATTCTTTTATTAATAATAATATTAATACAGGTTGAACTTTATATCCTCCTTTAATTAACCAAAATTTTATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCATCAATTTTTAGATCAATTAATTTTATTACTTCAATTT
TTATAATCAATAATAAAAATTTTTTAACTAAAAACTATTCTTTATATATTTGATCAATTATTGTTACAACAATTCTA
TTAATTTCATCAATCCCTGTTCTTTCAAGAGCTATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCATTAGGTAATGGAAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.17:Phenacoccus aceris 7
TTTTTTTTATAACTATACCTATTATTATTGGTAGATTAGGAAATTGACTAATTCCTTTAATATTATCTT
CTTCTGATTTACTATTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATTCCTTCTTTAATATTAATAATTTTA
AATTCTTTTATTAATAATAATATTAATACAGGTTGAACTTTATATCCTCCTTTAATTAACCAAAATTTTATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCATCAATTTTTAGATCAATTAATTTTATTACTTCAATTT
TTATAATCAATAATAAAAATTTTTTAACTAAAAACTATTCTTTATATATTTGATCAATTATTGTTACAACAATTCTA
TTAATTTCATCAATCCCTGTTCTTTCAAGAGCTATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCATTAGGTAATGGAAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.18:Phenacoccus aceris 8
TTTTTTTTATAACTATACCTATTATTATTGGTAGATTAGGAAATTGACTAATTCCTTTAATATTATCTT
CTTCTGATTTACTATTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATTCCTTCTTTAATATTAATAATTTTA
AATTCTTTTATTAATAATAATATTAATACAGGTTGAACTTTATATCCTCCTTTAATTAACCAAAATTTTATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCATCAATTTTTAGATCAATTAATTTTATTACTTCAATTT
TTATAATCAATAATAAAAATTTTTTAACTAAAAACTATTCTTTATATATTTGATCAATTATTGTTACAACAATTCTA
TTAATTTCATCAATCCCTGTTCTTTCAAGAGCTATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCATTAGGTAATGGAAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.19:Phenacoccus avenae
TCTTTTTTATAACTATACCTATCATTATTGGAAGATTAGGAAATTGACTTTTACCTTTAATAATTAGAT
CATCAGATTTAATATTTCCACGATTAAATAATTTTAGATTTTGACTATTATTACCTTCTTTAATATTAATGATTTTA
AATCTTTTTATTAATAATAACATTAATACAGGATGAACTTTATATCCCCCATTAATTAATCAAAACTTTATTACCTT
AAATTTTATTATTTTTTCTCTTCATTTAAATGGTATTTCATCAATTTTTAGATCAATTAATTTTATTTCTTCAATTT
TTATTATTAATAATAATAATTTTTTTTCAAATAATTTCACCCTTTATATTTGATCAATTATTGTTACTACTATTCTT
TTAATTATTTCAATTCCTGTTTTATCAAGAGCTATTACTATAATTATTCTAGATAATAATATAAATATAAATTTTTT
TAATCCCTTAGGAAATGGAAATCCCATTCTTTATCAACATTTATTT
SEQ ID NO.20:Phenacoccus parvus 1
TTTTCTTTATAACTATACCAATTATTATTGGAAGATTAAGAAATTGACTTTTACCTTTGATAATTTCCT
CTTCTGATTTAATATTTCCACGATTAAATAATTTTAGATTTTGATTACTTCTCCCTTCTTTAATATTATTAATTTTA
AATATAATATTAAACAATAATATTAATACAGGTTGAACACTTTATCCCCCATTAATTAATCAAAATTTCATTACTTT
AAATTTTATTATTTTTTCCCTTCATTTAAATGGGCTATCCTCTATTTTTAGTTCAATTAATTTTATCTCTTCAATTA
TAATTATTAACAATAATAAATTTTTTTTAAATAATTTATCATTATATATTTGATCTATTTTAATTACTACTTTTCTT
TTAATTGTTTCAATTCCTGTTTTATCAAGGGCTATTACTATAATTATTCTTGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGTAATGGGAACCCGATTTTATATCAACATCTATTT
SEQ ID NO.21:Phenacoccus parvus 2
TTTTCTTTATAACTATACCAATTATTATTGGAAGATTAAGAAATTGACTTTTACCTTTGATAATTTCCT
CTTCTGATTTAATATTTCCACGATTAAATAATTTTAGATTTTGATTACTTCTCCCTTCTTTAATATTATTAATTTTA
AATATAATATTAAACAATAATATTAATACAGGTTGAACACTTTATCCCCCATTAATTAATCAAAATTTCATTACTTT
AAATTTTATTATTTTTTCCCTTCATTTAAATGGGCTATCCTCTATTTTTAGTTCAATTAATTTTATCTCTTCAATTA
TAATTATTAACAATAATAAATTTTTTTTAAATAATTTATCATTATATATTTGATCTATTTTAATTACTACTTTTCTT
TTAATTGTTTCAATTCCTGTTTTATCAAGGGCTATTACTATAATTATTCTTGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGTAATGGGAACCCGATTTTATATCAACATCTATTT
SEQ ID NO.22:Phenacoccus solani 1
TTTTTTTTATAACTATACCTATTATTATTGGAAGATTTAGAAATTGACTATTACCTTTAATAATCTCAT
CTTCAGATTTAATATTCCCTCGATTAAATAATTTTAGATTCTGACTTCTTTTACCTTCTTTAATATTAATAATTTTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACTTTATATCCTCCTTTAATTAATCAAAATTTTATTACCTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGTTTATCATCAATTTTTAGATCAATTAATTTTATTTCTTCTATTA
TAGTAATTAATAATAATAATTTTTTTTTAAATAATTTAACTTTATATACATGATCAATTATAATTACAACATTTTTA
TTAATTGTTTCTATTCCAATTCTTTCTAGAGCAATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGAAATCCAATTCTTTATCAACATTTATTT
SEQ ID NO.23:Phenacoccus solani 2
TTTTTTTTATAACTATACCTATTATTATTGGAAGATTTAGAAATTGACTATTACCTTTAATAATCTCAT
CTTCAGATTTAATATTCCCTCGATTAAATAATTTTAGATTCTGACTTCTTTTACCTTCTTTAATATTAATAATTTTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACTTTATATCCTCCTTTAATTAATCAAAATTTTATTACCTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGTTTATCATCAATTTTTAGATCAATTAATTTTATTTCTTCTATTA
TAGTAATTAATAATAATAATTTTTTTTTAAATAATTTAACTTTATATACATGATCAATTATAATTACAACATTTTTA
TTAATTGTTTCTATTCCAATTCTTTCTAGAGCAATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGAAATCCAATTCTTTATCAACATTTATTT
SEQ ID NO.24:Phenacoccus solani 3
TTTTTTTTATAACTATACCTATTATTATTGGAAGATTTAGAAATTGACTATTACCTTTAATAATCTCAT
CTTCAGATTTAATATTCCCTCGATTAAATAATTTTAGATTCTGACTTCTTTTACCTTCTTTAATATTAATAATTTTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACTTTATATCCTCCTTTAATTAATCAAAATTTTATTACTTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGTTTATCATCAATTTTTAGATCAATTAATTTTATTTCTTCTATTA
TAGTAATTAATAATAATAATTTTTTTTTAAATAATTTAACTTTATATACATGATCAATTATAATTACAACATTTTTA
TTAATTGTTTCTATTCCAATTCTTTCTAGAGCAATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TACTCCTTTAGGAAATGGAAATCCAATTCTTTATCAACATTTATTT
SEQ ID NO.25:Phenacoccus solani 4
TTTTTTTTATAACTATACCTATTATTATTGGAAGATTTAGAAATTGACTATTACCTTTAATAATCTCAT
CTTCAGATTTAATATTCCCTCGATTAAATAATTTTAGATTCTGACTTCTTTTACCTTCTTTAATATTAATAATTTTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACTTTATATCCTCCTTTAATTAATCAAAATTTTATTACCTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGTTTATCATCAATTTTTAGATCAATTAATTTTATTTCTTCTATTA
TAGTAATTAATAATAATAATTTTTTTTTAAATAATTTAACTTTATATACATGATCAATTATAATTACAACATTTTTA
TTAATTGTTTCTATTCCAATTCTTTCTAGAGCAATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGAAATCCAATTCTTTATCAACATTTATTT
SEQ ID NO.26:Phenacoccus solani 5
TTTTTTTTATAACTATACCTATTATTATTGGAAGATTTAGAAATTGACTATTACCTTTAATAATCTCAT
CTTCAGATTTAATATTCCCTCGATTAAATAATTTTAGATTCTGACTTCTTTTACCTTCTTTAATATTAATAATTTTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACTTTATATCCTCCTTTAATTAATCAAAATTTTATTACCTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGTTTATCATCAATTTTTAGATCAATTAATTTTATTTCTTCTATTA
TAGTAATTAATAATAATAATTTTTTTTTAAATAATTTAACTTTATATACATGATCAATTATAATTACAACATTTTTA
TTAATTGTTTCTATTCCAATTCTTTCTAGAGCAATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGAAATCCGATTCTTTATCAACATTTATTT
SEQ ID NO.27:Phenacoccus solani 6
TTTTTTTTATAACTATACCTATTATTATTGGAAGATTTAGAAATTGACTATTACCTTTAATAATCTCAT
CTTCAGATTTAATATTCCCTCGATTAAATAATTTTAGATTCTGACTTCTTTTACCTTCTTTAATATTAATAATTTTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACTTTATATCCTCCTTTAATTAATCAAAATTTTATTACCTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGTTTATCATCAATTTTTAGATCAATTAATTTTATTTCTTCTATTA
TAGTAATTAATAATAATAATTTTTTTTTAAATAATTTAACTTTATATACATGATCAATTATAATTACAACATTTTTA
TTAATTGTTTCTATTCCAATTCTTTCTAGAGCAATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGAAATCCAATTCTTTATCAACATTTATTT
SEQ ID NO.28:Phenacoccus solenopsis 1
TTTTTTTTATGACTATACCTATTATTATCGGAAGATTTAGAAATTGACTTTTACCTTTAATAATTTCAT
CATCAGATTTAATATTTCCACGATTAAACAATTTTAGATTTTGACTTCTTTTACCTTCATTAATATTAATAATTTTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACTTTATACCCTCCTTTAATTAATCAAAATTTCATTACTTT
AAATTTTATTATTTTCTCTCTTCATTTAAACGGCCTATCTTCAATTTTTAGATCAATCAATTTTATTTCTTCTATTA
TAGTTATTAATAATAATAACTTTTTTCTTAATAATTTAACTTTATATACATGATCAATTATAATTACAACATTTTTA
TTAATTGTTTCAATTCCAGTACTTTCAAGAGCTATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGAAATCCTATTCTTTATCAACATTTATTT
SEQ ID NO.29:Phenacoccus solenopsis 2
TTTTTTTTATGACTATACCTATTATTATCGGAAGATTTAGAAATTGACTTTTACCTTTAATAATTTCAT
CATCAGATTTAATATTTCCACGATTAAACAATTTTAGATTTTGACTTCTTTTACCTTCATTAATATTAATAATTTTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACTTTATACCCTCCTTTAATTAATCAAAATTTCATTACTTT
AAATTTTATTATTTTCTCTCTTCATTTAAACGGCCTATCTTCAATTTTTAGATCAATCAATTTTATTTCTTCTATTA
TAGTTATTAATAATAATAACTTTTTTCTTAATAATTTAACTTTATATACATGATCAATTATAATTACAACATTTTTA
TTAATTGTTTCAATTCCAGTACTTTCAAGAGCTATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGAAATCCTATTCTTTATCAACATTTATTT
SEQ ID NO.30:Phenacoccus solenopsis 3
TTTTTTTTATGACTATACCTATTATTATCGGAAGATTTAGAAATTGACTTTTACCTTTAATAATTTCAT
CATCAGATTTAATATTTCCACGATTAAACAATTTTAGATTTTGACTTCTTTTACCTTCATTAATATTAATAATTTTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACTTTATACCCTCCTTTAATTAATCAAAATTTCATTACTTT
AAATTTTATTATTTTCTCTCTTCATTTAAACGGCCTATCTTCAATTTTTAGATCAATCAATTTTATTTCTTCTATTA
TAGTTATTAATAATAATAACTTTTTTCTTAATAATTTAACTTTATATACATGATCAATTATAATTACAACATTTTTA
TTAATTGTTTCAATTCCAGTACTTTCAAGAGCTATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGAAATCCTATTCTTTATCAACATTTATTT
SEQ ID NO.31:Phenacoccus solenopsis 4
TTTTTTTTATGACTATACCTATTATTATCGGAAGATTTAGAAATTGACTTTTACCTTTAATAATTTCAT
CATCAGATTTAATATTTCCACGATTAAACAATTTTAGATTTTGACTTCTTTTACCTTCATTAATATTAATAATTTTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACTTTATACCCTCCTTTAATTAATCAAAATTTCATTACTTT
AAATTTTATTATTTTCTCTCTTCATTTAAACGGCCTATCTTCAATTTTTAGATCAATCAATTTTATTTCTTCTATTA
TAGTTATTAATAATAATAACTTTTTTCTTAATAATTTAACTTTATATACATGATCAATTATAATTACAACATTTTTA
TTAATTGTTTCAATTCCAGTACTTTCAAGAGCTATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGAAATCCTATTCTTTATCAACATTTATTT
SEQ ID NO.32:Phenacoccus solenopsis 5
TTTTTTTTATGACTATACCTATTATTATCGGAAGATTTAGAAATTGACTTTTACCTTTAATAATTTCAT
CATCAGATTTAATATTTCCACGATTAAACAATTTTAGATTTTGACTTCTTTTACCTTCATTAATATTAATAATTTTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACTTTATACCCTCCTTTAATTAATCAAAATTTCATTACTTT
AAATTTTATTATTTTCTCTCTTCATTTAAACGGCCTATCTTCAATTTTTAGATCAATCAATTTTATTTCTTCTATTA
TAGTTATTAATAATAATAACTTTTTTCTTAATAATTTAACTTTATATACATGATCAATTATAATTACAACATTTTTA
TTAATTGTTTCAATTCCAGTACTTTCAAGAGCTATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGAAATCCTATTCTTTATCAACATTTATTT
SEQ ID NO.33:Phenacoccus solenopsis 6
TTTTTTTTATGACTATACCTATTATTATCGGAAGATTTAGAAATTGACTTTTACCTTTAATAATTTCAT
CATCAGATTTAATATTTCCACGATTAAACAATTTTAGATTTTGACTTCTTTTACCTTCATTAATATTAATAATTTTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACTTTATACCCTCCTTTAATTAATCAAAATTTCATTACTTT
AAATTTTATTATTTTCTCTCTTCATTTAAACGGCCTATCTTCAATTTTTAGATCAATCAATTTTATTTCTTCTATTA
TAGTTATTAATAATAATAACTTTTTTCTTAATAATTTAACTTTATATACATGATCAATTATAATTACAACATTTTTA
TTAATTGTTTCAATTCCAGTACTTTCAAGAGCTATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGAAATCCTATTCTTTATCAACATTTATTT
SEQ ID NO.34:Phenacoccus solenopsis 7
TTTTTTTTATGACTATACCTATTATTATCGGAAGATTTAGAAATTGACTTTTACCTTTAATAATTTCAT
CATCAGATTTAATATTTCCACGATTAAACAATTTTAGATTTTGACTTCTTTTACCTTCATTAATATTAATAATTTTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACTTTATACCCTCCTTTAATTAATCAAAATTTCATTACTTT
AAATTTTATTATTTTCTCTCTTCATTTAAACGGCCTATCTTCAATTTTTAGATCAATCAATTTTATTTCTTCTATTA
TAGTTATTAATAATAATAACTTTTTTCTTAATAATTTAACTTTATATACATGATCAATTATAATTACAACATTTTTA
TTAATTGTTTCAATTCCAGTACTTTCAAGAGCTATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGAAATCCTATTCTTTATCAACATTTATTT
SEQ ID NO.35:Phenacoccus solenopsis 8
TTTTTTTTATGACTATACCTATTATTATCGGAAGATTTAGAAATTGACTTTTACCTTTAATAATTTCAT
CATCAGATTTAATATTTCCACGATTAAACAATTTTAGATTTTGACTTCTTTTACCTTCATTAATATTAATAATTTTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACTTTATACCCTCCTTTAATTAATCAAAATTTCATTACTTT
AAATTTTATTATTTTCTCTCTTCATTTAAACGGCCTATCTTCAATTTTTAGATCAATCAATTTTATTTCTTCTATTA
TAGTTATTAATAATAATAACTTTTTTCTTAATAATTTAACTTTATATACATGATCAATTATAATTACAACATTTTTA
TTAATTGTTTCAATTCCAGTACTTTCAAGAGCTATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGATATGGAACTCCTATTCTTTATCAGCATTTATTT
SEQ ID NO.36:Phenacoccus solenopsis 9
TTTTTTTTATGACTATACCTATTATTATCGGAAGATTTAGAAATTGACTTTTACCTTTAATAATTTCAT
CATCAGATTTAATATTTCCACGATTAAACAATTTTAGATTTTGACTTCTTTTACCTTCATTAATATTAATAATTTTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACTTTATACCCTCCTTTAATTAATCAAAATTTCATTACTTT
AAATTTTATTATTTTCTCTCTTCATTTAAACGGCCTATCTTCAATTTTTAGATCAATCAATTTTATTTCTTCTATTA
TAGTTATTAATAATAATAACTTTTTTCTTAATAATTTAACTTTATATACATGATCAATTATAATTACAACATTTTTA
TTAATTGTTTCAATTCCAGTACTTTCAAGAGCTATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGAAATCCTATTCTTTATCAACATTTATTT
SEQ ID NO.37:Planococcus citri 1
TTTTCTTTATAACTATACCTATCATTATTGGAAGATTAAGAAATTGACTTTTACCATTAATATTAATAT
CATCAGATTTAATTTTTCCCCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCACTTATTTTAATAATAATA
AATATAATATTATCTAATAATATTAATACAGGTTGAACACTTTACCCTCCTTTAATTAATCAAAATTTTATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCTTCTATTTTTAGATCAATTAATTTTATTTCATCAATTT
TTATTATCAATAATAATAATTTTTTTTTAAATAATATTACTTTATATATTTGATCTATTATTATTACAACTATTTTA
TTAATTATTTCTATTCCAATTTTATCAAGAGCAATTACTATAATTATTTTAGATAATAATCTTAATATAAATTTTTT
TAATCCATTAGGAAATGGTAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.38:Planococcus citri 2
TTTTCTTTATAACTATACCTATCATTATTGGAAGATTAAGAAATTGACTTTTACCATTAATATTAATAT
CATCAGATTTAATTTTTCCCCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCACTTATTTTAATAATAATA
AATATAATATTATCTAATAATATTAATACAGGTTGAACACTTTACCCTCCTTTAATTAATCAAAATTTTATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCTTCTATTTTTAGATCAATTAATTTTATTTCATCAATTT
TTATTATCAATAATAATAATTTTTTTTTAAATAATATTACTTTATATATTTGATCTATTATTATTACAACTATTTTA
TTAATTATTTCTATTCCAATTTTATCAAGAGCAATTACTATAATTATTTTAGATAATAATCTTAATATAAATTTTTT
TAATCCATTAGGAAATGGTAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.39:Planococcus citri 3
TTTTCTTTATAACTATACCTATCATTATTGGAAGATTAAGAAATTGACTTTTGCCATTAATATTAATAT
CATCAGATTTAATTTTTCCCCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCACTTATTTTAATAATAATA
AATATAATATTATCTAATAATATTAATACAGGTTGAACACTTTACCCTCCTTTAATTAATCAAAATTTTATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCTTCTATTTTTAGATCAATTAATTTTATTTCATCAATTT
TTATTATCAATAATAATAATTTTTTTTTTAATAATATTACTTTATATATTTGATCTATTATTATTACAACTATTTTA
TTAATTATTTCTATTCCAATTTTATCAAGAGCAATTACTATAATTATTTTAGATAATAATCTTAATATAAATTTTTT
TAATCCATTAGGAAATGGTAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.40:Planococcus citri 4
TTTTCTTTATAACTATACCTATCATTATTGGAAGATTAAGAAATTGACTTTTGCCATTAATATTAATAT
CATCAGATTTAATTTTTCCCCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCACTTATTTTAATAATAATA
AATATAATATTATCTAATAATATTAATACAGGTTGAACACTTTACCCTCCTTTAATTAATCAAAATTTTATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCTTCTATTTTTAGATCAATTAATTTTATTTCATCAATTT
TTATTATCAATAATAATAATTTTTTTTTTAATAATATTACTTTATATATTTGATCTATTATTATTACAACTATTTTA
TTAATTATTTCTATTCCAATTTTATCAAGAGCAATTACTATAATTATTTTAGATAATAATCTTAATATAAATTTTTT
TAATCCATTAGGAAATGGTAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.41:Planococcus ficus 1
TTTTTTTTATAACTATACCTATTATTATTGGAAGATTAAGAAATTGATTATTACCATTAATATTAATAT
CTTCAGATTTAATTTTTCCACGATTAAATAATTTTAGATTTTGATTATTAATTCCATCTTTTATTTTAATAATATTA
AATATAATTTTATCTAATAATATTAATACCGGTTGAACTTTATATCCTCCTTTGATTAACCAAAATTTTATTACATT
AAATTTTATCATTTTTTCTTTACATTTAAATGGAATTTCATCAATTTTTAGATCAATTAATTTTATTTCTTCAATTT
TTATTATTAATAATAATAATTTTTTTTTAAATAATATTACTCTTTATATTTGATCAATTATTATTACAACCATTTTA
TTAATTATTTCTATTCCTATTTTATCTAGAGCTATTACTATAATTATTCTAGATAACAATCTTAATATAAATTTTTT
TAATCCTTTAGGAAATGGTAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.42:Planococcus ficus 2
TTTTTTTTATAACTATACCTATTATTATTGGAAGATTAAGAAATTGATTATTACCATTAATATTAATAT
CTTCAGATTTAATTTTTCCACGATTAAATAATTTTAGATTTTGATTATTAATTCCATCTTTTATTTTAATAATATTA
AATATAATTTTATCTAATAATATTAATACCGGTTGAACTTTATATCCTCCTTTGATTAACCAAAATTTTATTACATT
AAATTTTATCATTTTTTCTTTACATTTAAATGGAATTTCATCAATTTTTAGATCAATTAATTTTATTTCTTCAATTT
TTATTATTAATAATAATAATTTTTTTTTAAATAATATTACTCTTTATATTTGATCAATTATTATTACAACCATTTTA
TTAATTATTTCTATTCCTATTTTATCTAGAGCTATTACTATAATTATTCTAGATAACAATCTTAATATAAATTTTTT
TAATCCTTTAGGAAATGGTAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.43:Planococcus ficus 3
TTTTTTTTATAACTATACCTATTATTATTGGAAGATTAAGAAATTGACTATTACCATTAATATTAATAT
CTTCAGATTTAATTTTTCCACGATTAAATAATTTTAGATTTTGATTATTAATTCCATCTCTTATTTTAATAATATTA
AATATAATTTTATCTAATAATATTAATACTGGTTGAACTTTATATCCCCCTTTAATTAATCAAAATTTTATTACATT
AAATTTTATCATTTTTTCTTTACATTTAAATGGTATTTCATCAATTTTTAGATCAATCAATTTTATTTCTTCAATTT
TTATTATTAATAATAATAATTTTTTTTTAAATAATATTACTCTTTATATTTGATCTATTATTATCACAACTATTTTA
TTAATTATTTCTATTCCTATTTTATCTAGAGCTATTACTATAATTATTTTAGATAATAATCTTAATATAAATTTTTT
TAATCCCTTAGGAAATGGTAACCCAATTTTATACCAACATTTATTT
SEQ ID NO.44:Planococcus ficus 4
TTTTTTTTATAACTATACCTATTATTATTGGAAGATTAAGAAATTGACTATTACCATTAATATTAATAT
CTTCAGATTTAATTTTTCCACGATTAAATAATTTTAGATTTTGATTATTAATTCCATCTCTTATTTTAATAATATTA
AATATAATTTTATCTAATAATATTAATACTGGTTGAACTTTATATCCCCCTTTAATTAATCAAAATTTTATTACATT
AAATTTTATCATTTTTTCTTTACATTTAAATGGTATTTCATCAATTTTTAGATCAATCAATTTTATTTCTTCAATTT
TTATTATTAATAATAATAATTTTTTTTTAAATAATATTACTCTTTATATTTGATCTATTATTATCACAACTATTTTA
TTAATTATTTCTATTCCTATTTTATCTAGAGCTATTACTATAATTATTTTAGATAATAATCTTAATATAAATTTTTT
TAATCCCTTAGGAAATGGTAACCCAATTTTATACCAACATTTATTT
SEQ ID NO.45:Planococcus kraunhiae 1
TTTTTTTTATAACGATACCAATTATTATTGGAAGATTAAGAAATTGATTATTACCTTTAATACTTATAT
CTTCAGATTTAATTTTTCCGCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCTTTAATTCTTATGATATTA
AATATAATTTTATCAAATAATATTAATACTGGTTGAACTTTATACCCCCCTTTGATTAACCAAAACTTCATTACATT
AAATTTTATTATTTTTTCTCTACATTTAAATGGGATTTCTTCAATTTTTAGATCAATTAATTTTATTTCATCAATTT
TTATTATTAATAATAACAATTTTTTTCTTAATAATATTTCTTTATATATTTGATCAATTATTATTACTACAATTTTA
TTAATTATTTCTATCCCTATCTTATCAAGAGCTATTACTATAATTATTTTAGATAATAATCTAAATATAAATTTTTT
TAATCCATTAGGCAATGGAAACCCTATTCTTTATCAACATTTATTT
SEQ ID NO.46:Planococcus kraunhiae 2
TTTTTTTTATAACGATACCAATTATTATTGGAAGATTAAGAAATTGATTATTACCTTTAATACTTATAT
CTTCAGATTTAATTTTTCCGCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCTTTAATTCTTATGATATTA
AATATAATTTTATCAAATAATATTAATACTGGTTGAACTTTATACCCCCCTTTGATTAACCAAAACTTCATTACATT
AAATTTTATTATTTTTTCTCTACATTTAAATGGGATTTCTTCAATTTTTAGATCAATTAATTTTATTTCATCAATTT
TTATTATTAATAATAACAATTTTTTTCTTAATAATATTTCTTTATATATTTGATCAATTATTATTACTACAATTTTA
TTAATTATTTCTATCCCTATCTTATCAAGAGCTATTACTATAATTATTTTAGATAATAATCTAAATATAAATTTTTT
TAATCCATCAGGCAATGGAAACCCTATTCTTTATCAACATTTATTT
SEQ ID NO.47:Planococcus kraunhiae 3
TTTTTTTTATAACGATACCAATTATTATTGGAAGATTAAGAAATTGATTATTACCTTTAATACTTATAT
CTTCAGATTTAATTTTTCCGCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCTTTAATTCTTATGATATTA
AATATAATTTTATCAAATAATATTAATACTGGTTGAACTTTATACCCCCCTTTGATTAACCAAAACTTCATTACATT
AAATTTTATTATTTTTTCTCTACATTTAAATGGGATTTCTTCAATTTTTAGATCAATTAATTTTATTTCATCAATTT
TTATTATTAATAATAACAATTTTTTTCTTAATAATATTTCTTTATATATTTGATCAATTATTATTACTACAATTTTA
TTAATTATTTCTATCCCTATCTTATCAAGAGCTATTACTATAATTATTTTAGATAATAATCTAAATATAAATTTTTT
TAATCCATCAGGCAATGGAAACCCTATTCTTTATCAACATTTATTT
SEQ ID NO.48:Planococcus kraunhiae 4
TTTTTTTTATAACGATACCAATTATTATTGGAAGATTAAGAAATTGATTATTACCTTTAATACTTATAT
CTTCAGATTTAATTTTTCCGCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCTTTAATTCTTATGATATTA
AATATAATTTTATCAAATAATATTAATACTGGTTGAACTTTATACCCCCCTTTGATTAACCAAAACTTCATTACATT
AAATTTTATTATTTTTTCTCTACATTTAAATGGGATTTCTTCAATTTTTAGATCAATTAATTTTATTTCATCAATTT
TTATTATTAATAATAACAATTTTTTTCTTAATAATATTTCTTTATATATTTGATCAATTATTATTACTACAATTTTA
TTAATTATTTCTATCCCTATCTTATCAAGAGCTATTACTATAATTATTTTAGATAATAATCTAAATATAAATTTTTT
TAATCCATTAGGCAATGGAAACCCTATTCTTTATCAACATTTATTT
SEQ ID NO.49:Planococcus kraunhiae 5
TTTTTTTTATAACGATACCAATTATTATTGGAAGATTAAGAAATTGATTATTACCTTTAATACTTATAT
CTTCAGATTTAATTTTTCCGCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCTTTAATTCTTATGATATTA
AATATAATTTTATCAAATAATATTAATACTGGTTGAACTTTATACCCCCCTTTGATTAACCAAAACTTCATTACATT
AAATTTTATTATTTTTTCTCTACATTTAAATGGGATTTCTTCAATTTTTAGATCAATTAATTTTATTTCATCAATTT
TTATTATTAATAATAACAATTTTTTTCTTAATAATATTTCTTTATATATTTGATCAATTATTATTACTACAATTTTA
TTAATTATTTCTATCCCTATCTTATCAAGAGCTATTACTATAATTATTTTAGATAATAATCTAAATATAAATTTTTT
TAATCCATTAGGCAATGGAAACCCTATTCTTTATCAACATTTATTT
SEQ ID NO.50:Planococcus lilacinus 1
TTTTTTTTATAACTATACCAATTATTATTGGAAGAATAAGAAATTGATTATTACCATTAATATTAATAT
CTTCAGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCTTCATTAATTTTAATAATATTA
AATATAATTTTAATAAATAATATTAATACGGGTTGAACTTTATACCCTCCATTAATTAATCAAAATTTTATTACATT
AAATTTTATTATTTTTTCATTACATTTAAATGGAATTTCTTCAATTTTTAGATCAATCAATTTTATTTCATCAATTT
TTATTATTAATAATAATAATTTTTTTTTAAATAATATTTCTTTATATATTTGATCAATTATTATTACTACAATTTTA
TTAATTATTTCTATTCCTATTTTATCAAGAGCAATTACTATAATCATTCTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGTAATCCTATTCTCTATCAACATTTATTT
SEQ ID NO.51:Planococcus lilacinus 2
TTTTTTTTATAACTATACCAATTATTATTGGAAGAATAAGAAATTGATTATTACCATTAATATTAATAT
CTTCAGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCTTCATTAATTTTAATAATATTA
AATATAATTTTAATAAATAATATTAATACGGGTTGAACTTTATACCCTCCATTAATTAATCAAAATTTTATTACATT
AAATTTTATTATTTTTTCATTACATTTAAATGGAATTTCTTCAATTTTTAGATCAATCAATTTTATTTCATCAATTT
TTATTATTAATAATAATAATTTTTTTTTAAATAATATTTCTTTATATATTTGATCAATTATTATTACTACAATTTTA
TTAATTATTTCTATTCCTATTTTATCAAGAGCAATTACTATAATCATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGTAATCCTATTCTCTATCAACATTTATTT
SEQ ID NO.52:Planococcus lilacinus 3
TTTTTTTTATAACTATACCAATTATTATTGGAAGAATAAGAAATTGATTATTACCATTAATATTAATAT
CTTCAGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCTTCATTAATTTTAATAATATTA
AATATAATTTTAATAAATAATATTAATACGGGTTGAACTTTATACCCTCCATTAATTAATCAAAATTTTATTACATT
AAATTTTATTATTTTTTCATTACATTTAAATGGAATTTCTTCAATTTTTAGATCAATCAATTTTATTTCATCAATTT
TTATTATTAATAATAATAATTTTTTTTTAAATAATATTTCTTTATATATTTGATCAATTATTATTACTACAATTTTA
TTAATTATTTCTATTCCTATTTTATCAAGAGCAATTACTATAATCATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGTAATCCTATTCTCTATCAACATTTATTT
SEQ ID NO.53:Planococcus lilacinus 4
TTTTTTTTATAACTATACCAATTATTATTGGAAGAATAAGAAATTGATTATTACCATTAATATTAATAT
CTTCAGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCTTCATTAATTTTAATAATATTA
AATATAATTTTAATAAATAATATTAATACAGGTTGAACTTTATACCCCCCATTAATTAATCAAAATTTTATTACATT
AAATTTTATTATTTTTTCATTACATTTAAATGGAATTTCTTCAATTTTTAGATCAATCAATTTTATTTCATCAATTT
TTATTATTAATAATAATAATTTTTTTTTAAATAATATTTCTTTATATATTTGATCAATTATTATCACTACAATTTTA
TTAATTATTTCTATTCCTATTTTATCAAGAGCAATTACTATAATTATTCTAGATAATAATTTAAATATAAATTTTTT
TAATCCTTTAGGAAATGGTAATCCTATTCTCTATCAACATTTATTT
SEQ ID NO.54:Planococcus miNO.r 1
TTTTTTTTATAACTATACCTATCATTATTGGAAGATTAAGAAATTGACTCTTACCATTAATATTAATAT
CATCAGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCACTTATTTTAATAATAATA
AATATAATATTATCTAATAATATTAATACCGGTTGAACACTTTATCCCCCTTTAATTAATCAAAATTTTATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGGATTTCTTCTATTTTTAGATCAATTAATTTTATTTCATCAATTT
TTATTATTAATAATAATAACTTTTTTTTAAATAATATTACTTTATATATTTGATCCATTATTATTACAACTATTTTA
TTAATTATTTCTATTCCAATTTTATCAAGAGCAATTACTATAATTATTTTAGATAATAATCTTAATATAAATTTTTT
TAATCCATTAGGAAATGGTAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.55:Planococcus miNO.r 2
TTTTTTTTATAACTATACCTATCATTATTGGAAGATTAAGAAATTGACTCTTACCATTAATATTAATAT
CATCAGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCACTTATTTTAATAATAATA
AATATAATATTATCTAATAATATTAATACCGGTTGAACACTTTATCCCCCTTTAATTAATCAAAATTTTATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGGATTTCTTCTATTTTTAGATCAATTAATTTTATTTCATCAATTT
TTATTATTAATAATAATAACTTTTTTTTAAATAATATTACTTTATATATTTGATCCATTATTATTACAACTATTTTA
TTAATTATTTCTATTCCAATTTTATCAAGAGCAATTACTATAATTATTTTAGATAATAATCTTAATATAAATTTTTT
TAATCCATTAGGAAATGGTAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.56:Planococcus miNO.r 3
TTTTTTTTATAACTATACCTATCATTATTGGAAGATTAAGAAATTGACTCTTACCATTAATATTAATAT
CATCAGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCACTTATTTTAATAATAATA
AATATAATATTATCTAATAATATTAATACCGGTTGAACACTTTATCCCCCTTTAATTAATCAAAATTTTATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGGATTTCTTCTATTTTTAGATCAATTAATTTTATTTCATCAATTT
TTATTATTAATAATAATAACTTTTTTTTAAATAATATTACTTTATATATTTGATCCATTATTATTACAACTATTTTA
TTAATTATTTCTATTCCAATTTTATCAAGAGCAATTACTATAATTATTTTAGATAATAATCTTAATATAAATTTTTT
TAATCCATTAGGAAATGGTAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.57:Planococcus miNO.r 4
TTTTTTTTATAACTATACCTATCATTATTGGAAGATTAAGAAATTGACTCTTACCATTAATATTAATAT
CATCAGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCACTTATTTTAATAATAATA
AATATAATATTATCTAATAATATTAATACCGGTTGAACACTTTATCCCCCTTTAATTAATCAAAATTTTATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGGATTTCTTCTATTTTTAGATCAATTAATTTTATTTCATCAATTT
TTATTATTAATAATAATAACTTTTTTTTAAATAATATTACTTTATATATTTGATCCATTATTATTACAACTATTTTA
TTAATTATTTCTATTCCAATTTTATCAAGAGCAATTACTATAATTATTTTAGATAATAATCTTAATATAAATTTTTT
TAATCCATTAGGAAATGGTAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.58:Planococcus miNO.r 5
TTTTTTTTATAACTATACCTATCATTATTGGAAGATTAAGAAATTGACTCTTACCATTAATATTAATAT
CATCAGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCACTTATTTTAATAATAATA
AATATAATATTATCTAATAATATTAATACCGGTTGAACACTTTATCCCCCTTTAATTAATCAAAATTTTATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGGATTTCTTCTATTTTTAGATCAATTAATTTTATTTCATCAATTT
TTATTATTAATAATAATAACTTTTTTTTAAATAATATTACTTTATATATTTGATCCATTATTATTACAACTATTTTA
TTAATTATTTCTATTCCAATTTTATCAAGAGCAATTACTATAATTATTTTAGATAATAATCTTAATATAAATTTTTT
TAATCCATTAGGAAATGGTAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.59:Planococcus vovae
TTTTTTTTATAACTATACCTATTATTATTGGAAGATTAAGAAATTGACTTTTACCATTAATATTAATAT
CATCAGATTTAATTTTTCCACGATTAAATAATTTTAGATTTTGATTACTTTTTCCTTCATTAATTCTTATAATATTA
AATATAATTTTATCTAATAATATTAATACAGGATGAACTTTATATCCTCCTTTAATTAATCAAAATTTTATTACATT
AAATTTCATTATTTTTTCTTTACATTTAAACGGAATTTCATCAATCTTTAGATCAATTAATTTTATTTCTTCGATTT
TTATTATTAATAACAACAATTTTTTTTTAAATAATATTTCCCTCTATATTTGATCAATCATTATCACTACAATTTTA
CTAATTATTTCTATTCCAATTTTATCTAGAGCTATTACCATAATTATTTTAGATAATAATTTAAATATAAATTTCTT
TAATCCTTTAGGAAATGGTAATCCAATTCTTTATCAACATTTATTT
SEQ ID NO.60:Pseudococcus baliteus 1
TTTTTTTTATAACTATACCTATTATTATTGGTAGATTAAGAAATTGATTATTACCTTTAATACTTTCAT
CTTCTGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCTATATTATTTTTAATATTA
AATATACTATTAAATAATAATATTAATACAGGATGAACTTTATATCCTCCTTTAATTAATCAAAATTTTATTACTTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCTTCAATTTTTAGTTCAATTAATTTTATTTCTTCAATTT
TTATTATTAATAATAATAATTTTTTTATTAATAATTTATCTTTATATATTTGATCAATTATTATTACAACTATTTTA
TTAATTATTTCTATTCCTATTTTATCTAGAGCTATTACTATAATTATTTTAGACAATAATTTAAATATAAATTTTTT
TAATCCTATAGGTAATGGTAATCCTATTTTATATCAACATTTATTT
SEQ ID NO.61:Pseudococcus baliteus 2
TTTTTTTTATAACTATACCTATTATTATTGGTAGATTAAGAAATTGATTATTACCTTTAATACTTTCAT
CTTCTGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCTATATTATTTTTAATATTA
AATATACTATTAAATAATAATATTAATACAGGATGAACTTTATATCCTCCTTTAATTAATCAAAATTTTATTACTTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCTTCAATTTTTAGTTCAATTAATTTTATTTCTTCAATTT
TTATTATTAATAATAATAATTTTTTTATTAATAATTTATCTTTATATATTTGATCAATTATTATTACAACTATTTTA
TTAATTATTTCTATTCCTATTTTATCTAGAGCTATTACTATAATTATTTTAGACAATAATTTAAATATAAATTTTTT
TAATCCTATAGGTAATGGTAATCCTATTTTATACCAACATTTATTT
SEQ ID NO.62:Pseudococcus baliteus 3
TTTTTTTTATAACTATACCTATTATTATTGGTAGGTTAAGAAATTGATTATTACCTTTAATACTTTCAT
CTTCTGATTTAATTTTTCCTCGATTAAATAATTTTAGATTCTGATTATTAATTCCATCTATATTATTTTTAATATTA
AATATATTATTAAATAATAATATTAATACAGGATGAACTTTATACCCTCCTTTAATTAATCAAAATTTTATTACTTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCTTCAATTTTTAGTTCAATTAATTTTATTTCCTCAATTT
TTATTATTAATAATAATAATTTTTTTATTAATAATTTATCTTTATATATTTGATCAATTATTATTACAACTATTTTA
TTAATTATTTCTATTCCTATTTTATCTAGAGCTATTACTATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTATAGGTAATGGTAATCCTATTTTATATCAACATTTATTC
SEQ ID NO.63:Pseudococcus baliteus 4
TTTTTTTTATAACTATACCTATTATTATTGGTAGATTAAGAAATTGATTATTACCTTTAATACTTTCAT
CTTCTGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCTATATTATTTTTAATATTA
AATATACTATTAAATAATAATATTAATACAGGATGAACTTTATATCCTCCTTTAATTAATCAAAATTTTATTACTTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCTTCAATTTTTAGTTCAATTAATTTTATTTCTTCAATTT
TTATTGTTAATAATAATAATTTTTTTATTAATAATTTATCTTTATATATTTGATCAATTATTATTACAACTATTTTA
TTAATTATTTCTATTCCTATTTTATCTAGAGCTATTACTATAATTATTTTAGACAATAATTTAAATATAAATTTTTT
TAATCCTATAGGTAATGGTAATCCTATTTTATATCAACATTTATTT
SEQ ID NO.64:Pseudococcus baliteus 5
TTTTTTTTATAACCATACCTATTATTATTGGTAGATTAAGAAATTGATTATTACCTTTAATACTTTCAT
CTTCTGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCTATATTATTTTTAATATTA
AATATACTATTAAATAATAATATTAATACAGGATGAACTTTATATCCTCCTTTAATTAATCAAAATTTTATTACTTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCTTCAATTTTTAGTTCAATTAATTTTATTTCTTCAATTT
TTATTATTAATAATAATAATTTTTTTATTAATAATTTATCTTTATATATTTGATCAATTATTATTACAACTATTTTA
TTAATTATTTCTATTCCTATTTTATCTAGAGCTATTACTATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTATAGGTAATGGTAATCCTATTTTATATCAACATTTATTT
SEQ ID NO.65:Pseudococcus baliteus 6
TTTTTTTTATAACTATACCTATTATTATTGGTAGATTAAGAAATTGATTATTACCTTTAATACTTTCAT
CTTCTGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCTATATTATTTTTAATATTA
AATATATTATTAAATAATAATATTAATACAGGATGAACTTTATATCCTCCTTTAATTAATCAAAATTTTATTACTTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCTTCAATTTTTAGTTCAATTAATTTTATTTCTTCAATTT
TTATTATTAATAATAATAATTTTTTTATTAATAATTTATCTTTATATATTTGATCAATTATTATTACAACTATTTTA
TTAATTATTTCTATTCCTATTTTATCTAGAGCTATTACTATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTATAGGTAATGGTAATCCTATTTTATATCAACATTTATTT
SEQ ID NO.66:Pseudococcus baliteus 7
TTTTTTTTATAACCATACCTATTATTATTGGTAGATTAAGAAATTGATTATTACCTTTAATACTTTCAT
CTTCTGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCATCTATATTATTTTTAATATTA
AATATACTATTAAATAATAATATTAATACAGGATGAACTTTATATCCTCCTTTAATTAATCAAAATTTTATTACTTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCTTCAATTTTTAGTTCAATTAATTTTATTTCTTCAATTT
TTATTATTAATAATAATAATTTTTTTATTAATAATTTATCTTTATATATTTGATCAATTATTATTACAACTATTTTA
TTAATTATTTCTATTCCTATTTTATCTAGAGCTATTACTATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTATAGGTAATGGTAATCCTATTTTATATCAACATTTATTT
SEQ ID NO.67:Pseudococcus calceolariae 1
TTTTTTTCATAACTATACCTATTATTATTGGAAGATTAAGAAATTGATTATTACCCTTAATATTAATAT
CTTCAGATTTAATTTTTCCCCGATTAAACAATTTTAGATTTTGATTACTTATTCCTTCAATAATTTTTATAATATTA
AATATAATATTAAATAATAATATTAATTCTGGATGAACATTGTATCCCCCTTTAATTAACCAAAATTTCATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGTATTTCCTCAATTTTTAGATCAATTAATTTTATTTCTTCTATTT
TTATTATTAATAATAACAATTTTTTTGTTAATAATATATCTTTATTTATTTGATCTATTATTATTACCACTATTTTA
TTAATTATTTCTATTCCCATTCTTTCTAGAGCTATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
CAATCCAATAGGCAATGGAAATCCAATTCTTTACCAACATTTATTT
SEQ ID NO.68:Pseudococcus calceolariae 2
TTTTTTTCATAACTATACCTATTATTATTGGAAGATTAAGAAATTGATTATTACCCTTAATATTAATAT
CTTCAGATTTAATTTTTCCCCGATTAAACAATTTTAGATTTTGATTACTTATTCCTTCAATAATTTTTATAATATTA
AATATAATATTAAATAATAATATTAATTCTGGATGAACATTGTATCCCCCTTTAATTAACCAAAATTTCATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGTATTTCCTCAATTTTTAGATCAATTAATTTTATTTCTTCTATTT
TTATTATTAATAATAACAATTTTTTTGTTAATAATATATCTTTATTTATTTGATCTATTATTATTACCACTATTTTA
TTAATTATTTCTATTCCCATTCTTTCTAGAGCTATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
CAATCCAATAGGCAATGGAAATCCAATTCTTTACCAACATTTATTT
SEQ ID NO.69:Pseudococcus calceolariae 3
TTTTTTTCATAACTATACCTATTATTATTGGAAGATTAAGAAATTGATTATTACCCTTAATATTAATAT
CTTCAGATTTAATTTTTCCCCGATTAAACAATTTTAGATTTTGATTACTTATTCCTTCAATAATTTTTATAATATTA
AATATAATATTAAATAATAATATTAATTCTGGATGAACATTGTATCCCCCTTTAATTAACCAAAATTTCATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGTATTTCCTCAATTTTTAGATCAATTAATTTTATTTCTTCTATTT
TTATTATTAATAATAACAATTTTTTTGTTAATAATATATCTTTATTTATTTGATCTATTATTATTACCACTATTTTA
TTAATTATTTCTATTCCCATTCTTTCTAGAGCTATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
CAATCCAATAGGCAATGGAAATCCAATTCTTTACCAACATTTATTT
SEQ ID NO.70:Pseudococcus calceolariae 4
TTTTTTTCATAACTATACCTATTATTATTGGAAGATTAAGAAATTGATTATTACCCTTAATATTAATAT
CTTCAGATTTAATTTTTCCCCGATTAAACAATTTTAGATTTTGATTACTTATTCCTTCAATAATTTTTATAATATTA
AATATAATATTAAATAATAATATTAATTCTGGATGAACATTGTATCCCCCTTTAATTAACCAAAATTTCATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGTATTTCCTCAATTTTTAGATCAATTAATTTTATTTCTTCTATTT
TTATTATTAATAATAACAATTTTTTTGTTAATAATATATCTTTATTTATTTGATCTATTATTATTACCACTATTTTA
TTAATTATTTCTATTCCCATTCTTTCTAGAGCTATTACAATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
CAATCCAATAGGCAATGGAAATCCAATTCTTTACCAACATTTATTT
SEQ ID NO.71:Pseudococcus comstocki 1
TTTTTTTTATAACTATACCTATTATTATTGGAAGATTAAGAAATTGATTATTACCTTTAATATTAATAT
CATCTGATTTAATTTTTCCTCGTTTAAATAATTTTAGATTTTGATTATTAATTCCTTCATTAATTTTAATAATATTA
AATATATTTTTAAATAATAATATTAATACAGGTTGAACATTATATCCTCCATTAATTAATCAAAATTATATTTCATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCTTCAATTTTTAGATCAATTAATTTTATTTCATCAATTT
TTATTATTAATAATAATAATTTTTTATTAAATAACTCATCTTTATATATTTGATCTATTATTATTACTACAATTCTT
TTAATTATTTCTATTCCTATTTTATCTAGAGCTATTACTATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTATAGGAAATGGAAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.72:Pseudococcus comstocki 2
TTTTTTTTATAACTATACCTATTATTATTGGAAGATTAAGAAATTGATTATTACCTTTGATATTAATAT
CATCTGATTTAATTTTTCCTCGTTTAAATAATTTTAGATTTTGATTATTAATTCCTTCATTAATTTTAATAATATTA
AATATATTTTTAAATAATAATATTAATACAGGTTGAACATTATACCCTCCTTTAATTAATCAAAATTATATTTCATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCTTCAATTTTTAGATCAATTAATTTTATTTCATCAATTT
TTATTATTAATAATAACAATTTTTTATTAAATAATTTATCTTTATATATTTGATCAATTATTATTACTACAATTCTT
TTAATTATTTCCATTCCTGTTTTATCTAGAGCTATTACTATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
CAATCCTATAGGAAATGGTAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.73:Pseudococcus comstocki 3
TTTTTTTTATAACTATACCTATTATTATTGGAAGTTTAAGAAATTGATTATTACCTTTAATATTAATAT
CTTCGGATTTAATTTTTCCCCGATTAAATAATTTTAGATTTTGATTATTAATTCCTTCATTAATTCTTTTAATATTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACATTATATCCGCCATTAATTAATCAAAATTATATCACATT
AAATTTTATTATTTTTTCTTTACATTTAAACGGTATTTCTTCAATTTTTAGTTCTATTAATTTTATTTCTTCAATTT
TTATTATTAATAATAATAATTTTTTTGTTAATAATTTATCTTTATATATTTGATCAATTATTATTACTACAATTCTT
TTAATTATTTCTATTCCTATTTTATCAAGAGCAATTACAATAATTATTTTAGATAATAATATACATATAAGTTTTTT
TAACCCTATAGGTAATGGCAATCCTATTTTATATCAACATTTATTT
SEQ ID NO.74:Pseudococcus comstocki 4
TTTTTTTTATAACTATACCTATTATTATTGGAAGTTTAAGAAATTGATTATTACCTTTAATATTAATAT
CTTCGGATTTAATTTTTCCCCGATTAAATAATTTTAGATTTTGATTATTAATTCCTTCATTAATTCTTTTAATATTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACATTATATCCGCCATTAATTAATCAAAATTATATCACATT
AAATTTTATTATTTTTTCTTTACATTTAAACGGTATTTCTTCAATTTTTAGTTCTATTAATTTTATTTCTTCAATTT
TTATTATTAATAATAATAATTTTTTTGTTAATAATTTATCTTTATATATTTGATCAATTATTATTACTACAATTCTT
TTAATTATTTCTATTCCTATTTTATCAAGAGCAATTACAATAATTATTTTAGATAATAATATACATATAAGTTTTTT
TAACCCTATAGGTAATGGCAATCCTATTTTATATCAACATTTATTT
SEQ ID NO.75:Pseudococcus comstocki 5
TTTTTTTTATAACTATACCTATTATTATTGGAAGATTAAGAAATTGATTATTACCTTTAATATTAATAT
CATCTGATTTAATTTTTCCTCGTTTAAATAATTTTAGATTTTGATTATTAATTCCTTCATTAATTTTAATAATATTA
AATATATTTTTAAATAATAATATTAATACAGGTTGAACATTATATCCTCCATTAATTAATCAAAATTATATTTCATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCTTCAATTTTTAGATCAATTAATTTTATTTCATCAATTT
TTATTATTAATAATAATAATTTTTTATTAAATAACTTATCTTTATATATTTGATCTATTATTATTACTACAATTCTT
TTAATTATTTCTATTCCTATTTTATCTAGAGCTATTACTATAATTATTTTAGATAATAATTTAAATATAAATTTTTT
TAATCCTATAGGAAATGGAAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.76:Pseudococcus cryptus 1
TTTTTTTTATAACTATACCTATTATTATTGGTAGTTTAAGAAATTGATTATTACCATTAATATTAATAT
CTTCTGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCTTCATTAATTCTTTTAATATTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACATTATACCCTCCATTAATTAATCAAAATTATATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCTTCAATTTTTAGATCAATCAATTTTATTTCTTCAATTT
TTATTATTAATAATAACAATTTTTTCATTAATAATTTATCTTTATATATTTGATCAATTATTATTACTACAATTCTT
TTAATTATTTCTATTCCTATTTTATCAAGAGCAATTACAATAATTATTTTAGATAATAATATACATATAAATTTTTT
TAATCCTTTAGGTAATGGCAATCCTATTTTATATCAACATTTATTT
SEQ ID NO.77:Pseudococcus cryptus 2
TTTTTTTTATAACTATACCTATTATTATTGGTAGTTTAAGAAATTGATTATTACCATTAATATTAATAT
CTTCTGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCTTCATTAATTCTTTTAATATTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACATTATACCCTCCATTAATTAATCAAAATTATATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCTTCAATTTTTAGATCAATCAATTTTATTTCTTCAATTT
TTATTATTAATAATAACAATTTTTTCATTAATAATTTATCTTTATATATTTGATCAATTATTATTACTACAATTCTT
TTAATTATTTCTATTCCTATTTTATCAAGAGCAATTACAATAATTATTTTAGATAATAATATACATATAAATTTTTT
TAATCCTTTAGGTAATGGCAATCCTATTTTATATCAACATTTATTT
SEQ ID NO.78:Pseudococcus cryptus 3
TTTTTTTTATAACTATACCTATTATTATTGGTAGTTTAAGAAATTGATTATTACCATTAATATTAATAT
CTTCTGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCTTCATTAATTCTTTTAATATTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACATTATACCCTCCATTAATTAATCAAAATTATATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCTTCAATTTTTAGATCAATCAATTTTATTTCTTCAATTT
TTATTATTAATAATAACAATTTTTTCATTAATAATTTATCTTTATATATTTGATCAATTATTATTACTACAATTCTT
TTAATTATTTCTATTCCTATTTTATCAAGAGCAATTACAATAATTATTTTAGATAATAATATACATATAAATTTTTT
TAATCCTTTAGGTAATGGCAATCCTATTTTATATCAACATTTATTT
SEQ ID NO.79:Pseudococcus cryptus 4
TTTTTTTTATAACTATACCTATTATTATTGGTAGTTTAAGAAATTGATTATTACCATTAATATTAATAT
CTTCTGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGATTATTAATTCCTTCATTAATTCTTTTAATATTA
AATATAATATTAAATAATAATATTAATACAGGTTGAACATTATACCCTCCATTAATTAATCAAAATTATATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATTTCTTCAATTTTTAGATCAATCAATTTTATTTCTTCAATTT
TTATTATTAATAATAACAATTTTTTCATTAATAATTTATCTTTATATATTTGATCAATTATTATTACTACAATTCTT
TTAATTATTTCTATTCCTATTTTATCAAGAGCAATTACAATAATTATTTTAGATAATAATATACATATAAATTTTTT
TAATCCTTTAGGTAATGGCAATCCTATTTTATATCAACATTTATTT
SEQ ID NO.80:Pseudococcus jackbeardsleyi 1
TTTTTTTTATAACTATACCTATTATTATTGGAAGAATAAGAAATTGATTATTACCATTAATAATAATAT
CTAGAGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATTCCTTCATTAATATTAATAATATTA
AATATAATATTAAATAATAATATTAATACAGGATGAACATTATATCCTCCTTTAATTAATCAAAATTATATTTCATT
AAATTTTATTATTTTTTCATTACATTTAAATGGAATTTCATCAATTTTCAGATCAATTAATTTTATTTCTTCAATTT
TTATTATTAATAATAATAATTTTTTTTTAAATAATTTAACACTTTATATTTGATCTATTATTATTACATCTATTTTA
TTAATTCTTTCTATTCCAATTTTATCAAGAGCAATTACAATAATTATCTTAGATAGAAATTTTAATATAAATTTTTT
TAATCCTATAGGAAATGGAAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.81:Pseudococcus jackbeardsleyi 2
TTTTTTTTATAACTATACCTATTATTATTGGAAGAATAAGAAATTGATTATTACCATTAATAATAATAT
CTAGAGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATTCCTTCATTAATATTAATAATATTA
AATATAATATTAAATAATAATATTAATACAGGATGAACATTATATCCTCCTTTAATTAATCAAAATTATATTTCATT
AAATTTTATTATTTTTTCATTACATTTAAATGGAATTTCATCAATTTTCAGATCAATTAATTTTATTTCTTCAATTT
TTATTATTAATAATAATAATTTTTTTTTAAATAATTTAACACTTTATATTTGATCTATTATTGTTACATCTATTTTA
TTAATTCTTTCTATCCCAATTTTATCAAGAGCAATTACAATAATTATCTTAGATAGAAATTTTAATATAAATTTTTT
TAATCCTATAGGAAATGGAAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.82:Pseudococcus jackbeardsleyi 3
TTTTTTTTATAACTATACCTATTATTATTGGAAGAATAAGAAATTGATTATTACCATTAATAATAATAT
CTAGAGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATTCCTTCATTAATATTAATAATATTA
AATATAATATTAAATAATAATATTAATACAGGATGAACATTATATCCTCCTTTAATTAATCAAAATTATATTTCATT
AAATTTTATTATTTTTTCATTACATTTAAATGGAATTTCATCAATTTTCAGATCAATTAATTTTATTTCTTCAATTT
TTATTATTAATAATAATAATTTTTTTTTAAATAATTTAACACTTTATATTTGATCTATTATTGTTACATCTATTTTA
TTAATTCTTTCTATCCCAATTTTATCAAGAGCAATTACAATAATTATCTTAGATAGAAATTTTAATATAAATTTTTT
TAATCCTATAGGAAATGGAAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.83:Pseudococcus jackbeardsleyi 4
TTTTTTTTATAACTATACCTATTATTATTGGAAGAATAAGAAATTGATTATTACCATTAATAATAATAT
CTAGAGATTTAATTTTTCCTCGATTAAATAATTTTAGATTTTGACTTTTAATTCCTTCATTAATATTAATAATATTA
AATATAATATTAAATAATAATATTAATACAGGATGAACATTATATCCTCCTTTAATTAATCAAAATTATATTTCATT
AAATTTTATTATTTTTTCATTACATTTAAATGGAATTTCATCAATTTTCAGATCAATTAATTTTATTTCTTCAATTT
TTATTATTAATAATAATAATTTTTTTTTAAATAATTTAACACTTTATATTTGATCTATTATTATTACATCTATTTTA
TTAATTCTTTCTATTCCAATTTTATCAAGAGCAATTACAATAATTATCTTAGATAGAAATTTTAATATAAATTTTTT
TAATCCTATAGGAAATGGAAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.84:Pseudococcus longispinus 1
TTTTTTTCATAACCATACCTATTATTATCGGTAGATTAAGAAATTGACTTCTACCATTAATATTAATAT
CATCAGACTTAATTTTCCCGCGTTTAAATAATTTTAGATTTTGATTACTTATACCATCATTAATTTTTATAATATTA
AATATATTATTAAATAATAATATTAATACTGGATGAACTCTTTATCCTCCTTTAATTAATCAAAATTTTATTACACT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATCTCCTCAATTTTTAGATCTATTAATTTTATTTCATCAATTT
TTATTATTAATAATAATAATTTTTTATTAAATAATTTATCACTATATATTTGATCAATTATTATTACTACTATTTTA
TTAATTATTTCTATTCCTATTTTATCAAGGGCAATTACCATAATTATTTTAGATAATAACTTAAATATAAATTTCTT
TAATCCTATAGGTAATGGTAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.85:Pseudococcus longispinus 2
TTTTTTTCATAACCATACCTATTATTATCGGTAGATTAAGAAATTGACTTCTACCATTAATATTAATAT
CATCAGATTTAATTTTCCCACGTTTAAATAATTTTAGATTTTGATTACTTATACCATCATTAATTTTTATAATATTA
AATATATTATTAAATAATAATATTAATACTGGATGAACTCTTTATCCTCCTTTAATTAATCAAAATTTTATTACATT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATCTCTTCAATTTTTAGATCTATTAATTTTATTTCATCAATTT
TTATTATTAATAATAATAATTTTTTATTAAATAATTTATCATTATATATCTGATCAATTATTATTACTACTATTTTA
TTAATTATTTCTATTCCTATTTTATCAAGAGCAATTACCATAATTATTTTAGATAATAACTTAAATATAAATTTTTT
TAATCCTATAGGTAATGGTAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.86:Pseudococcus longispinus 3
TTTTTTTCATAACCATACCTATTATTATCGGTAGATTAAGAAATTGACTTCTACCATTAATATTAATAT
CATCAGACTTAATTTTCCCGCGTTTAAATAATTTTAGATTTTGATTACTTATACCATCATTAATTTTTATAATATTA
AATATATTATTAAATAATAATATTAATACTGGATGAACTCTTTATCCTCCTTTAATTAATCAAAATTTTATTACACT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATCTCCTCAATTTTTAGATCTATTAATTTTATTTCATCAATTT
TTATTATTAATAATAATAATTTTTTATTAAATAATTTATCACTATATATTTGATCAATTATTATTACTACTATTTTA
TTAATTATTTCTATTCCTATTTTATCAAGGGCAATTACCATAATTATTTTAGATAATAACTTAAATATAAATTTCTT
TAATCCTATAGGTAATGGTAATCCAATTTTATATCAACATTTATTT
SEQ ID NO.87:Pseudococcus longispinus 4
TTTTTTTTATAACTATACCTATTATTATTGGTAGATTAAGTAATTGACTTTTACCATTAATATTAATAT
CATCAGATTTAATTTTTCCACGTTTAAATAATTTTAGATTCTGATTACTTATTCCATCATTAATTTTTATAATATTA
AATATATTACTAAATAATAATATTAATACTGGATGAACTCTTTATCCACCTTTAATTAATCAAAATTATATTACTTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAATCTCATCAATTTTTAGATCTATTAATTTTATTTCATCAATTT
TTATTATTAATAATAATAATTTTTTATTAAATAATTTATCATTATATATTTGATCAATTATTATTACTACTATTTTA
TTAATTATTTCTATTCCTATTTTATCAAGAGCAATTACTATAATTATTTTAGATAACAATTTAAACATAAATTTTTT
TAATCCAATAGGTAATGGTAATCCAATTTTATACCAACATCTATTT
SEQ ID NO.88:Pseudococcus longispinus 5
TTTTTTTTATAACTATACCTATTATTATTGGTAGATTAAGTAATTGACTTTTACCATTAATATTAATAT
CATCAGATTTAATTTTTCCACGTTTAAATAATTTTAGATTCTGATTACTTATTCCATCATTAATTTTTATAATATTA
AATATATTACTAAATAATAATATTAATACTGGATGAACTCTTTATCCACCTTTAATTAATCAAAATTATATTACTTT
AAATTTTATTATTTTTTCTTTACATTTAAATGGAGTCTCATCAATTTTTAGATCTATTAATTTTATTTCATCAATTT
TTATTATTAATAATAATAATTTTTTATTAAATAATTTATCATTATATATTTGATCAATTATTATTACTACTATTTTA
TTAATTATTTCTATTCCTATTTTATCAAGAGCAATTACTATAATTATTTTAGATAACAATTTAAACATAAATTTTTT
TAATCCAATAGGTAATGGTAATCCAATTTTATACCAACATCTATTT
SEQ ID NO.89:Pseudococcus viburni 1
TTTTTTTTATAACTATACCTATTATTATTGGAAGATTAAGAAATTGACTTTTACCTTTAATATTAATAT
CTAGAGATTTAATTTTTCCTCGTTTAAATAATTTTAGATTTTGATTATTAATTCCTTCTTTACTATTAATAATATTT
AATATAATATTAAATAATAATATTAATACAGGTTGAACACTTTATCCTCCTTTAATTAATCAAAATTTTTTAACATT
AAATTTTATTATTTTTTCATTACATTTAAATGGAATTTCTTCTATTTTTAGATCAATTAATTTTATTTCTTCTATTT
TTATTATTAATAATAATAATTTTTTATTTAATAACTTATCATTATATATTTGATCCATCATTATTACTTCTATTCTT
TTAATTCTTTCTATTCCTATTTTATCAAGAGCTATTACAATAATTATTCTTGATAGAAATTTTAATATACATTTTTT
TAATCCATTAGGAAATGGAAATCCTATTCTTTATCAACATTTATTT
SEQ ID NO.90:Pseudococcus viburni 2
TTTTTTTTATAACTATACCTATTATTATTGGAAGATTAAGAAATTGACTTTTACCTTTAATATTAATAT
CTAGAGATTTAATTTTTCCTCGTTTAAATAATTTTAGATTTTGATTATTAATTCCTTCTTTACTATTAATAATATTT
AATATAATATTAAATAATAATATTAATACAGGTTGAACACTTTATCCTCCTTTAATTAATCAAAATTTTTTAACATT
AAATTTTATTATTTTTTCATTACATTTAAATGGAATTTCTTCTATTTTTAGATCAATTAATTTTATTTCTTCTATTT
TTATTATTAATAATAATAATTTTTTATTTAATAACTTATCATTATATATTTGATCCATCATTATTACTTCTATTCTT
TTAATTCTTTCTATTCCTATTTTATCAAGAGCTATTACAATAATTATTCTTGATAGAAATTTTAATATACATTTTTT
TAATCCATTAGGAAATGGAAATCCTATTCTTTATCAACATTTATTT
SEQ ID NO.91:Pseudococcus viburni 3
TTTTTTTTATAACTATACCTATTATTATTGGGAGATTAAGAAATTGACTTTTACCTTTAATATTAATAT
CTAGAGATTTAATTTTTCCTCGTTTAAATAATTTTAGATTTTGATTATTAATTCCTTCTTTACTATTAATAATATTT
AATATAATATTAAATAATAATATTAATACAGGTTGAACACTTTATCCTCCTTTAATTAATCAAAATTTTTTAACATT
AAATTTTATTATTTTTTCATTACATTTAAATGGAATTTCTTCTATTTTTAGATCAATTAATTTTATTTCTTCTATTT
TTATTATTAATAATAATAATTTTTTATTTAATAACTTATCATTATATATTTGATCCATCATTATTACTTCTATTCTT
TTAATTCTTTCTATTCCTATTTTATCAAGAGCTATTACAATAATTATTCTTGATAGAAATTTTAATATACATTTTTT
TAATCCATTAGGAAATGGAAATCCTATTCTTTATCAACATTTATTT
SEQ ID NO.92:Pseudococcus viburni 4
TTTTTTTTATAACTATACCTATTATCATTGGAAGATTAAGAAATTGACTTTTACCTTTAATATTAATAT
CTAGAGATTTAATTTTTCCTCGTTTAAATAATTTTAGATTTTGATTATTAATTCCTTCTTTACTATTAATAATATTT
AATATAATATTAAATAATAATATTAATACAGGTTGAACACTTTATCCTCCTTTAATTAATCAAAATTTTTTAACATT
AAATTTTATTATTTTTTCATTACATTTAAATGGAATTTCTTCTATTTTTAGATCAATTAATTTTATTTCTTCTATTT
TTATTATTAATAATAATAATTTTTTATTTAATAACTTATCATTATATATTTGATCCATCATTATTACTTCTATTCTT
TTAATTCTTTCTATTCCTATTTTATCAAGAGCTATTACAATAATTATTCTTGATAGAAATTTTAATATACATTTTTT
TAATCCATTAGGAAATGGAAATCCTATTCTTTATCAACATTTATTT
SEQ ID NO.93:Pseudococcus viburni 5
TTTTTTTTATAACTATACCTATTATTATTGGAAGATTAAGAAATTGACTTTTACCTTTAATATTAATAT
CTAGAGATTTAATTTTTCCTCGTTTAAATAATTTTAGGTTTTGATTATTAATTCCTTCTTTATTATTAATAATATTT
AATATAATATTAAATAATAATATTAATACAGGTTGAACACTTTATCCTCCTTTAATTAATCAAAATTTTTTAACGTT
AAATTTTATTATCTTTTCATTACATTTAAATGGGATTTCTTCTATTTTTAGATCAATTAATTTTATTTCTTCTATTT
TTATTATTAATAATAATAATTTTTTATTTAATAATTTGTCATTATATATTTGATCTATCATTATCACTTCTATTCTT
TTAATTCTTTCTATTCCTATTTTATCAAGAGCTATTACAATAATTATTCTTGATAGAAATTTTAATATACATTTTTT
TAATCCATTAGGAAATGGAAACCCTATTCTTTATCAACATTTATTT
Claims (6)
1. a kind of Pseudococcidae insect genes barcode detection kit, it is characterised in that: include at least a genetic barcode sequence
More than disk and 20 dosages primer PseJ and primer PseN;The primer PseJ and primer PseN Serial No.,
PseJ:5'- CCTTCAACTAATCATAAAAATATNAG -3';
PseN:5'-TAAACTTCTGGATGTCCAAAAAATCA-3;
There are 93 standard sequence of barcodes, the standard sequence of barcodes such as SEQ ID NO.1 in the genetic barcode sequence disk
To shown in SEQ ID NO.93.
2. a kind of Pseudococcidae insect genes barcode detection kit according to claim 1, it is characterised in that: the examination
Agent box further includes the following reagent of 20 dosages or more: Taq buffer, MgCl2, dNTP mix, Taq DNA polymerase,
ddH2O, DNA standard sample.
3. a kind of detection method of Pseudococcidae insect genes barcode detection kit, which is characterized in that with the kit into
Row amplification the following steps are included:
The preparation of S1, DNA profiling: reagent is extracted using GenMagBio zooblast tissue/cell genomic DNA paramagnetic particle method
Box extracts sample to be tested;
The amplification of S2, DNA bar code sequence: using the DNA test sample in S1 as template, using primer PseJ and primer PseN
PCR amplification, the primer PseJ and primer PseN Serial No. are carried out,
PseJ:5'- CCTTCAACTAATCATAAAAATATNAG -3';
PseN:5'-TAAACTTCTGGATGTCCAAAAAATCA-3;The PCR reaction system uses standards system, and total volume is
50 μ L or 25 μ L;
The PCR reaction condition: 95 DEG C of initial denaturation 4min;35 circulations: 94 DEG C of deformation 1min, 48 DEG C of annealing 1min, 72 DEG C are prolonged
Stretch 90s;Last 72 DEG C of extensions 4min, 4 DEG C of preservations;
S3,8 μ L samples to be tested of mixing and 2 μ L 6 × Glycerol DNA sample-loading buffer loadings, with DNA Marker DL100
For molecular weight marker, 120 V of constant pressure, is dyed, gel with the EB of 3% agarose gel electrophoresis 45min, 0.5% μm of ol/L at room temperature
Imaging system test sample, photographic analysis;
S4, PCR result judgement:
8 μ L PCR products and 2 μ L 6 × Glycerol DNA sample-loading buffer loadings are mixed, are with DNA Marker DL100
Molecular weight marker, 120 V of constant pressure at room temperature, with 3 % agarose gel electrophoresis 45 minutes, the EB dyeing of 0.5% μm of ol/L, gel
Imaging system test sample, takes pictures;Photo shows that mealybug and standard DNA sample have clearly amplified band in the position 700bp, i.e.,
For target stripe;
The sequencing of S5, RCR product obtains gene order;
S6, Pseudococcidae insect genes compare
The sequence that mealybug to be measured is sequenced is compared with genetic barcode sequence disk Plays gene sequence of barcodes, if than
To similarity 100%, then assert it for the type;When up to 100%, then carrying out amino not with any standard bar code sequence similarity
The comparison of sour genetic distance determines whether in target zone.
4. a kind of detection method of Pseudococcidae insect genes barcode detection kit as claimed in claim 3, feature exist
In the PCR reaction system is 50 μ L, wherein containing KCl, 2mmol/L MgCl containing 5 μ 10 × Taq of L buffer2、200µ
Mol/L dNTP mix, 2U Taq DNA polymerase, 3 μ L DNA profilings, each 1 μm of ol/L of primer;
The PCR reaction system is 25 μ L, wherein 2 μ L of template DNA, contains Mg2+10 × reaction buffer 2.5 μ L, dNTPs
2 μ L, 5pmol/L upstream primer of 0.2mmol/L and each 1 μ L of downstream primer, 1.0 U Taq archaeal dna polymerase, 0.2 μ L, sterile water
It mends to 25 μ L.
5. a kind of detection method of Pseudococcidae insect genes barcode detection kit as claimed in claim 3, feature exist
In the sample in the S1 is the clean mealybug of pineapple, Lee's Bi Lishi ash mealybug, grey mealybug belong to a kind ofDysmicoccus neobrevipes, duckweed silk floss mealybug, Phenacoccus it is a kind ofPhenacoccus avenae, Phenacoccus it is a kind ofPhenacoccus parvus, short-tube lycoris silk floss mealybug, Japan silk floss mealybug, tangerine stern line mealybug, stern line mealybug belong to a kind ofPlanococcus ficus, Japan
Stern line mealybug, stern line mealybug belong to a kind ofPlanococcus lilacinus, stern line mealybug belong to a kind ofPlanococcus minor、
Stern line mealybug belongs to a kind ofPlanococcus vovae, mealybug belong to a kind ofPseudococcus baliteus, sugarcane root mealybug, Kang Shi
Mealybug, mealybug belong to a kind ofPseudococcus cryptus, Jack Bei Ershi mealybug, quasi- long tailed mealybug, mealybug belong to a kind ofPseudococcus viburni。
6. a kind of detection method of Pseudococcidae insect genes barcode detection kit as claimed in claim 3, feature exist
In, the S6 Pseudococcidae insect genes comparison result includes the following steps,
S61, when obtained sequence and standard gene sequence of barcodes similarity 100%, then assert it for the type;
S62, when up to 100%, then pressing mealybug gene order to be measured not with any standard bar code sequence similarity, " no vertebra is dynamic
Object codon " is translated as amino acid, uses " P-distance mould with amino acid sequence corresponding to standard gene sequence of barcodes
Type " calculates genetic distance, if the standard gene bar code type with unknown type mealybug gene order genetic distance less than 1%, as
Targeted species;If genetic distance is both greater than 1%, determine unknown mealybug type not within the scope of this 21 kinds of mealybugs.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610381928.8A CN105925697B (en) | 2016-06-01 | 2016-06-01 | A kind of Pseudococcidae insect genes barcode detection kit and its detection method |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610381928.8A CN105925697B (en) | 2016-06-01 | 2016-06-01 | A kind of Pseudococcidae insect genes barcode detection kit and its detection method |
Publications (2)
Publication Number | Publication Date |
---|---|
CN105925697A CN105925697A (en) | 2016-09-07 |
CN105925697B true CN105925697B (en) | 2019-05-24 |
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CN106636411A (en) * | 2016-12-28 | 2017-05-10 | 中华人民共和国连云港出入境检验检疫局 | Xyleborus sp insect gene barcode detection kit and detection method thereof |
CN109321644A (en) * | 2018-10-23 | 2019-02-12 | 杭州贝英福生物科技有限公司 | It is a kind of expand Pseudococcidae mitochondrial genomes kit and its application |
CN109468392B (en) * | 2019-01-09 | 2021-11-12 | 上海海关动植物与食品检验检疫技术中心 | Real-time fluorescence PCR detection method for Ericerus citriodora, and primer and probe for detection |
CN109609664A (en) * | 2019-02-03 | 2019-04-12 | 福建省农业科学院农业质量标准与检测技术研究所 | For identifying the specific primer and its detection method of pawpaw show mealybug |
CN111187844B (en) * | 2020-01-16 | 2023-09-19 | 南京海关动植物与食品检测中心 | Gene bar code detection kit and detection method for bark beetle insects |
NL2028128B1 (en) * | 2021-05-02 | 2022-04-05 | Zhejiang Academy Of Science & Tech For Inspection & Quarantine | Primers, probe, kit and method for fluorescence quantitative pcr detection of phenacoccus solani ferris |
CN113215287A (en) * | 2021-06-25 | 2021-08-06 | 浙江省检验检疫科学技术研究院 | Primer, probe, kit and method for detecting lycoris radiata mealybugs based on fluorescent quantitative PCR |
CN115786531B (en) * | 2022-09-08 | 2023-07-21 | 浙江省检验检疫科学技术研究院 | Method for identifying lycoris radiata mealy bugs and application |
CN116463433A (en) * | 2023-06-15 | 2023-07-21 | 浙江大学海南研究院 | Specific pair of COI primers and application thereof in rapid identification of four-grain bean weevil |
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