id
stringlengths 8
10
| sequence
stringlengths 1
38M
| name
stringlengths 6
8
| description
stringlengths 3
342
| features
int64 1
461
| seq_length
int64 1
38M
|
|---|---|---|---|---|---|
DM462141.1
|
ATGGCTTGGGTGTGGACCTTGCCATTCCTGATGGCAGCTGCCCAAAGTGTCCAGGCCCAGGTGCAGCTGGTGGAATCTGGCGGCGGACTGGTGCAGCCTGGCGGCAGCCTGAGACTGAGCTGCGCCGCCAGCGGCTTCACCTTCAGCAGCTACTACATGAGCTGGGTGCGGCAGGCCCCTGGCAAGGGCCTGGAATGGGTGTCCGGCATCTTCTTCGACGGCACCACCTACTACGCCGACAGCGTGAAGGGCCGGTTCACCATCAGCCGGGACAACAGCAAGAACACCCTGTACCTGCAGATGAACAGCCTGCGGGCCGAGGACACCGCCGTGTACTACTGCGCCAGGCAGCAGTACTTCGACCACATCGACATCTGGGGCCAGGGCACCCTGGTCACCGTCTCCTCAGCCTCCACCAAGGGCCCATCGGTCTTCCCCCTGGCACCCTCCTCCAAGAGCACCTCTGGGGGCACAGCGGCCCTGGGCTGCCTGGTCAAGGACTACTTCCCCGAACCGGTGACGGTGTCGTGGAACTCAGGCGCCCTGACCAGCGGCGTGCACACCTTCCCGGCTGTCCTACAGTCCTCAGGACTCTACTCCCTCAGCAGCGTCGTGACCGTGCCCTCCAGCAGCTTGGGCACCCAGACCTACATCTGCAACGTGAATCACAAGCCCAGCAACACCAAGGTGGACAAGAGAGTTGAGCCCAAATCTTGTGACAAAACTCACACATGCCCACCGTGCCCAGCACCTGAACTCCTGGGGGGACCGTCAGTCTTCCTCTTCCCCCCAAAACCCAAGGACACCCTCATGATCTCCCGGACCCCTGAGGTCACATGCGTGGTGGTGGACGTGAGCCACGAAGACCCTGAGGTCAAGTTCAACTGGTACGTGGACGGCGTGGAGGTGCATAATGCCAAGACAAAGCCGCGGGAGGAGCAGTACAACAGCACGTACCGTGTGGTCAGCGTCCTCACCGTCCTGCACCAGGACTGGCTGAATGGCAAGGAGTACAAGTGCAAGGTCTCCAACAAAGCCCTCCCAGCCCCCATCGAGAAAACCATCTCCAAAGCCAAAGGGCAGCCCCGAGAACCACAGGTGTACACCCTGCCCCCATCCCGGGAGGAGATGACCAAGAACCAGGTCAGCCTGACCTGCCTGGTCAAAGGCTTCTATCCCAGCGACATCGCCGTGGAGTGGGAGAGCAATGGGCAGCCGGAGAACAACTACAAGACCACGCCTCCCGTGCTGGACTCCGACGGCTCCTTCTTCCTCTATAGCAAGCTCACCGTGGACAAGAGCAGGTGGCAGCAGGGGAACGTCTTCTCATGCTCCGTGATGCATGAGGCTCTGCACAACCACTACACGCAGAAGAGCCTCTCCCTGTCCCCGGGTAAATGA
|
DM462141
|
THYMIC STROMAL LYMPHOPOIETIN (TSLP) ANTIBODIES AND USES THEREOF
| 1
| 1,401
|
DM462142.1
|
ATGAAACACCTGTGGTTCTTCCTCCTGCTGGTGGCAGCTCCCAGATGGGTCCTGTCCCAGGTGCAATTGGTGGAAAGCGGCGGCGGCCTGGTGCAACCGGGCGGCAGCCTGCGTCTGAGCTGCGCGGCCTCCGGATTTACCTTTTCTTCTTATTATATGTCTTGGGTGCGCCAAGCCCCTGGGAAGGGTCTCGAGTGGGTGAGCGGTACTTTTTTTGATGGTTCTACTTATTATGCTGATTCTGTTAAGGGTCGTTTTACCATTTCACGTGATAATTCGAAAAACACCCTGTATCTGCAAATGAACAGCCTGCGTGCGGAAGATACGGCCGTGTATTATTGCGCGCGTCAGCAGTATTTTGATCATATTGATATTTGGGGCCAAGGCACCCTGGTGACGGTTAGCTCAGCCTCCACCAAGGGTCCATCGGTCTTCCCCCTGGCACCCTCCTCCAAGAGCACCTCTGGGGGCACAGCGGCCCTGGGCTGCCTGGTCAAGGACTACTTCCCCGAACCGGTGACGGTGTCGTGGAACTCAGGCGCCCTGACCAGCGGCGTGCACACCTTCCCGGCTGTCCTACAGTCCTCAGGACTCTACTCCCTCAGCAGCGTGGTGACCGTGCCCTCCAGCAGCTTGGGCACCCAGACCTACATCTGCAACGTGAATCACAAGCCCAGCAACACCAAGGTGGACAAGAGAGTTGAGCCCAAATCTTGTGACAAAACTCACACATGCCCACCGTGCCCAGCACCTGAACTCCTGGGGGGACCGTCAGTCTTCCTCTTCCCCCCAAAACCCAAGGACACCCTCATGATCTCCCGGACCCCTGAGGTCACATGCGTGGTGGTGGACGTGAGCCACGAAGACCCTGAGGTCAAGTTCAACTGGTACGTGGACGGCGTGGAGGTGCATAATGCCAAGACAAAGCCGCGGGAGGAGCAGTACAACAGCACGTACCGGGTGGTCAGCGTCCTCACCGTCCTGCACCAGGACTGGCTGAATGGCAAGGAGTACAAGTGCAAGGTCTCCAACAAAGCCCTCCCAGCCCCCATCGAGAAAACCATCTCCAAAGCCAAAGGGCAGCCCCGAGAACCACAGGTGTACACCCTGCCCCCATCCCGGGAGGAGATGACCAAGAACCAGGTCAGCCTGACCTGCCTGGTCAAAGGCTTCTATCCCAGCGACATCGCCGTGGAGTGGGAGAGCAATGGGCAGCCGGAGAACAACTACAAGACCACGCCTCCCGTGCTGGACTCCGACGGCTCCTTCTTCCTCTACAGCAAGCTCACCGTGGACAAGAGCAGGTGGCAGCAGGGGAACGTCTTCTCATGCTCCGTGATGCATGAGGCTCTGCACAACCACTACACGCAGAAGAGCCTCTCCCTGTCTCCGGGTAAATGA
|
DM462142
|
THYMIC STROMAL LYMPHOPOIETIN (TSLP) ANTIBODIES AND USES THEREOF
| 1
| 1,401
|
DM462143.1
|
ATGGCTTGGGTGTGGACCTTGCCATTCCTGATGGCAGCTGCCCAAAGTGTCCAGGCCCAGGTGCAGCTGGTGGAATCTGGCGGCGGACTGGTGCAGCCTGGCGGCAGCCTGAGACTGAGCTGCGCCGCCAGCGGCTTCACCTTCAGCAGCTACTACATGAGCTGGGTGCGGCAGGCCCCTGGCAAGGGCCTGGAATGGGTGTCCGGCACCTTCTTCGACGGCAGCACCTACTACGCCGACAGCGTGAAGGGCCGGTTCACCATCAGCCGGGACAACAGCAAGAACACCCTGTACCTGCAGATGAACAGCCTGCGGGCCGAGGACACCGCCGTGTACTACTGCGCCAGGCAGCAGTACTTCGACCACATCGACATCTGGGGCCAGGGCACCCTGGTCACCGTCTCCTCAGCCTCCACCAAGGGCCCATCGGTCTTCCCCCTGGCACCCTCCTCCAAGAGCACCTCTGGGGGCACAGCGGCCCTGGGCTGCCTGGTCAAGGACTACTTCCCCGAACCGGTGACGGTGTCGTGGAACTCAGGCGCCCTGACCAGCGGCGTGCACACCTTCCCGGCTGTCCTACAGTCCTCAGGACTCTACTCCCTCAGCAGCGTCGTGACCGTGCCCTCCAGCAGCTTGGGCACCCAGACCTACATCTGCAACGTGAATCACAAGCCCAGCAACACCAAGGTGGACAAGAGAGTTGAGCCCAAATCTTGTGACAAAACTCACACATGCCCACCGTGCCCAGCACCTGAACTCCTGGGGGGACCGTCAGTCTTCCTCTTCCCCCCAAAACCCAAGGACACCCTCATGATCTCCCGGACCCCTGAGGTCACATGCGTGGTGGTGGACGTGAGCCACGAAGACCCTGAGGTCAAGTTCAACTGGTACGTGGACGGCGTGGAGGTGCATAATGCCAAGACAAAGCCGCGGGAGGAGCAGTACAACAGCACGTACCGTGTGGTCAGCGTCCTCACCGTCCTGCACCAGGACTGGCTGAATGGCAAGGAGTACAAGTGCAAGGTCTCCAACAAAGCCCTCCCAGCCCCCATCGAGAAAACCATCTCCAAAGCCAAAGGGCAGCCCCGAGAACCACAGGTGTACACCCTGCCCCCATCCCGGGAGGAGATGACCAAGAACCAGGTCAGCCTGACCTGCCTGGTCAAAGGCTTCTATCCCAGCGACATCGCCGTGGAGTGGGAGAGCAATGGGCAGCCGGAGAACAACTACAAGACCACGCCTCCCGTGCTGGACTCCGACGGCTCCTTCTTCCTCTATAGCAAGCTCACCGTGGACAAGAGCAGGTGGCAGCAGGGGAACGTCTTCTCATGCTCCGTGATGCATGAGGCTCTGCACAACCACTACACGCAGAAGAGCCTCTCCCTGTCCCCGGGTAAATGA
|
DM462143
|
THYMIC STROMAL LYMPHOPOIETIN (TSLP) ANTIBODIES AND USES THEREOF
| 1
| 1,401
|
DM462144.1
|
CCCAGGTTNTCCTCGCT
|
DM462144
|
Phosphonylated Fluorescent Dyes and Conjugates
| 1
| 17
|
DM462145.1
|
GCAAAGTCCCATCGTT
|
DM462145
|
Phosphonylated Fluorescent Dyes and Conjugates
| 1
| 16
|
DM462146.1
|
CCGTCCAGTCGTTTATCTTC
|
DM462146
|
Phosphonylated Fluorescent Dyes and Conjugates
| 1
| 20
|
DM462147.1
|
CGAACGCAGCCCCGCTGGA
|
DM462147
|
Phosphonylated Fluorescent Dyes and Conjugates
| 1
| 19
|
DM462148.1
|
ATGAGCACATGTTGTTGGTGTACGCCAGGTGGTGCTTCCACCATTGACTTCCTAAAGCGCTATGCTTCCAACACTCCGTCCGGTGAATTTCAAACAGCCGACGAAGACCTCTGCTACTGCTTGGAGTGTGTGGCTGAGTACCACAAAGCAAGAGATGAATTGCCATTCTTGCATGAGGTTTTATGGGAATTAGAAACCTTACGTCTCATAAATCACTTTGAAAAATCCATGAAGGCAGAAATTGGAGATGATGATGAGTTATATATAGTAGACAATAATGGAGAGATGCCACTGTTTGACATCACTGGGCAAGACTTTGAAAATAAGCTTCGAGTTCCTCTTCTTGAAATACTGAAATATCCTTACTTGCTTCTACATGAACGTGTTAACGAGTTATGTGTTGAAGCACTTTGTCGGATGGAACAAGCCAATTGCTCCTTTCAGGTGTTTGATAAACATCCAGGGATCTATTTGTTTTTAGTCCATCCCAATGAAATGGTTCGGCGTTGGGCTATCTTGACTGCAAGAAACTTGGGGAAAGTGGACAGAGATGATTATTATGACTTACAAGAAGTTTTACTTTGCCTTTTTAAAGTCATTGAGTTGGGGCTTTTAGAGAGTCCAGACATTTATACTTCTTCTGTCCTAGAGAAGGGTAAACTGATTCTTCTGCCCTCACACATGTATGATACTACCAACTACAAAAGCTATTGGTTAGGTATTTGCATGTTGCTGACCATTCTTGAGGAACAAGCCATGGATTCCCTGTTGTTGGGCTCAGACAAACAAAATGATTTTATGCAATCGATACTTCACACTATGGAGAGGGAAGCAGATGATGATAGTGTGGATCCTTTCTGGCCAGCGTTACACTGTTTTATGGTGATTCTGGATCGCCTTGGATCTAAGGTCTGGGGTCAACTTATGGATCCTATTGTGGCATTTCAAACCATTATCAACAACGCAAGCTACAATAGAGAGATCCGACATATACGGAACAGCTCTGTAAGGACCAAGTTAGAACCGGAGTCCTATTTGGATGATATGGTGACTTGCAGCCAGATCGTATACAATTATAATCCTGAAAAGACCAAAAAGGATTCTGGATGGAGAACAGCCATTTGCCCAGATTATTGTCCTAACATGTATGAAGAAATGGAAACATTAGCCAGTGTACTTCAGTCAGATATTGGTCAAGACATGCGTGTTCATAACAGCACATTTCTATGGTTCATCCCTTTTGTCCAGTCCCTCATGGATCTTAAGGATTTGGGTGTGGCTTACATAGCACAGGTTGTTAATCATCTGTACTCTGAAGTCAAAGAAGTCCTCAACCAAACAGATGCTGTGTGTGACAAAGTCACTGAATTTTTTCTTCTAATTTTGGTATCAGTGATTGAACTGCATAGAAATAAAAAATGTTTGCATTTGCTGTGGGTAAGTTCCCAGCAATGGGTGGAAGCCGTCGTCAAATGTGCCAAGCTTCCTACCACTGCGTTTACACGGAGTTCTGAGAAATCATCTGGAAATTGCTCCAAAGGAACAGCAATGATATCTTCACTGTCATTGCATTCCATGCCATCTAACTCTGTACAACTTGCTTATGTGCAGCTGATTAGAAGTCTCCTTAAAGAAGGTTATCAGCTTGGGCAGCAGTCTCTTTGCAAGCGATTCTGGGATAAGCTCAACTTATTCCTTAGAGGAAATTTATCTCTAGGTTGGCAGTTGACTAGTCAGGAAACCCATGAGCTACAAAGTTGCTTAAAGCAAATTATTAGAAACATAAAATTCAAAGCACCTCCATGTAACACTTTTGTGGATCTGACTTCTGCATGTAAAATCTCTCCTGCATCTTATAATAAAGAAGAAAGTGAACAAATGGGGAAGACGTCTAGAAAAGATATGCATTGTTTGGAAGCTTCCAGCCCAACATTTTCTAAAGAACCAATGAAAGTGCAAGACAGTGTATTGATCAAAGCAGATAACACTATAGAAGGTGACAATAATGAGCAAAATTATATAAAGGATGTGAAACTAGAGGACCATCTCTTAGCTGGGTCATGCTTAAAGCAGAGTAGTAAAAACATTTTTACTGAAAGAGCTGAAGATCAAATTAAAATAAGTACAAGGAAGCAGAAGTCTGTAAAAGAGATCTCTTCATATACACCAAAGGACTGTACTTCAAGAAATGGTCCAGAAAGGGGATGTGACAGAGGAATAATAGTATCAACACGTTTGTTGACTGATTCTAGCACTGATGCTTTGGAAAAAGTGTCCACATCGAATGAAGATTTCTCTTTAAAGGATGATGCTCTTGCTAAAACCTCAAAACGAAAAACTAAGGTACAGAAAGATGAAATCTGTGCAAAGTTATCACATGTAATAAAGAAGCAACACAGGAAGAGTACTTTGGTCGATAATACTATCAATTTAGATGAAAATTTGACTGTATCTAACATTGAGAGTTTCTATTCAAGGAAAGATACAGGAGTTCAGAAAGGAGATGGTTTCATACACAATCTTTCTTTAGACCCTAGTGGTGTTCTGGATGATAAGAATGGAGAACAAAAATCTCAAAACAATGTATTGCCAAAAGAGAAACAATTAAAGAATGAAGAATTAGTTATTTTCTCTTTCCATGAAAACAATTGTAAAATACAGGAATTTCATGTTGATGGTAAAGAATTGATCCCTTTTACAGAAATGACCAATGCTTCAGAGAAGAAATCATCTCCCTTTAAAGATCTTATGACTGTACCTGAATCAAGAGATGAGGAGATGAGTAATAGTACCAGTGTGATTTATTCTAACTTGACAAGAGAACAGGCCCCTGACATCAGTCCTAAATCTGACACCTTAACGGATTCTCAGATAGACAGAGACCTTCACAAATTATCTTTACTAGCTCAAGCCAGTGTTATTACGTTCCCATCCGATTCACCTCAGAACTCATCGCAGCTGCAAAGGAAAGTAAAAGAAGATAAAAGATGTTTCACAGCTAACCAAAATAATGTTGGAGATACCTCCCGTGGACAGGTTATTATTATTTCAGATTCTGATGATGATGATGATGAAAGAATCCTGAGTCTTGAGAAACTCACTAAACAGGACAAAATATGCCTTGAGAGGGAACATCCAGAGCAGCACGTTTCAACAGTTAATAGTAAGGAGGAAAAGAATCCAGTAAAGGAAGAAAAGACAGAGACTCTTTTTCAGTTTGAGGAATCTGATTCTCAGTGTTTTGAGTTTGAAAGTTCATCTGAAGTGTTTTCAGTTTGGCAAGATCATCCAGACGATAATAATTCAGTTCAAGATGGTGAGAAAAAATGTTTGGCTCCTATAGCCAATACTACAAATGGTCAGGGTTGTACAGATTATGTATCTGAAGTTGTTAAAAAAGGAGCAGAGGGCATTGAAGAACACACAAGACCACGGAGTATTTCTGTTGAAGAATGTTGTGAAATTGAAGTAAAAAAGCCTAAGAGAAAACGATCTGAAAAACCAATGGCTGAAGATCCTGTGAGGCCTTCATCTTCTGTCAGAAATGAGGGCCAGTCTGATACTAATAAGAGAGATCTTGTGGGAAATGATTTTAAAAGTATTGATAGAAGGACTTCAACTCCCAATTCACGTATTCAGAGAGCCACTACGGTTTCACAAAAGAAGTCTTCAAAGCTTTGTACTTGTACAGAACCCATCAGGAAAGTTCCAGTTTCTAAGACCCCTAAGAAAACTCATTCAGATGCCAAAAAAGGACAGAATAGAAGTTCAAATTACCTAAGTTGTAGAACAACTCCTGCTATAGTGCCGCCAAAGAAATTTCGTCAGTGTCCTGAGCCAACTTCAACAGCTGAGAAACTTGGCCTGAAAAAGGGTCCTCGTAAGGCATATGAGTTGTCCCAGCGGTCTTTGGATTATGTAGCTCAATTACGTGATCATGGCAAAACTGTTGGAGTAGTTGATACCCGAAAAAAGACTAAATTAATTTCTCCTCAGAACCTGTCTGTCAGAAATAATAAGAAACTTCTGACTAGTCAAGAACTTCAGATGCAAAGGCAGATCAGACCCAAATCACAAAAAAATAGACGAAGACTTTCTGATTGTGAAAGTACAGATGTTAAAAGAGCAGGGTCACATACAGCACAGAATTCTGACATATTTGTACCAGAATCTGATAGGTCAGATTATAATTGTACAGGAGGAACTGAGGTACTTGCCAACAGTAACAGAAAACAGTTAATAAAATGCATGCCTTCTGAACCAGAAACCATAAAAGCAAAACATGGGTCTCCAGCAACTGATGATGCTTGCCCTTTGAACCAGTGTGATTCTGTAGTGTTAAATGGAACAGTACCAACAAATGAAGTAATTGTCTCCACTTCAGAAGACCCTCTGGGTGGAGGTGATCCAACAGCACGTCATATAGAGATGGCAGCTTTGAAAGAAGGAGAGCCTGACTCCAGCAGTGATGCAGAGGAAGATAACTTATTTTTAACCCAAAATGATCCTGAAGATATGGATTTATGTTCACAAATGGAGAATGACAATTATAAACTCATTGAACTAATTCATGGAAAAGATACAGTTGAGGTTGAAGAAGATTCTGTAAGTCGGCCTCAGTTGGAATCTTTGAGTGGCACAAAGTGTAAGTACAAAGATTGTCTTGAAACCACAAAAAACCAGGGTGAATACTGCCCAAAACACTCTGAAGTGAAAGCAGCAGATGAAGATGTATTTCGTAAACCTGGCTTGCCTCCTCCTGCATCTAAACCTTTGAGACCTACCACTAAGATTTTTAGCTCAAAGAGTACTTCACGAATTGCTGGTCTTTCTAAATCTTTGGAAACTTCTTCAGCACTTTCACCGTCTCTAAAAAATAAGTCAAAGGGGATACAGTCGATTTTGAAAGTACCACAGCCAGTTCCCCTCATAGCTCAGAAGCCAGTTGGTGAAATGAAGAATTCGTGCAATGTTCTTCATCCTCAGTCTCCGAATAATTCCAACAGGCAAGGTTGCAAAGTTCCATTTGGTGAAAGCAAATATTTTCCATCTTCCTCTCCAGTAAACATTCTTTTGTCATCACAGTCTGTCTCTGACACCTTCGTTAAAGAGGTCTTAAAATGGAAATATGAAATGTTTTTGAACTTTGGTCAGTGTGGGCCCCCTGCAAGTCTTTGTCAGTCCATCTCAAGACCTGTGCCTGTCAGATTTCACAATTATGGAGATTATTTTAATGTTTTTTTCCCTTTGATGGTATTGAATACTTTTGAAACAGTGGCACAAGAATGGCTCAACTCTCCAAATAGAGAGAATTTCTATCAGTTGCAAGTACGAAAATTTCCTGCCGATTATATAAAATACTGGGAGTTTGCAGTTTATCTGGAAGAATGTGAACTGGCTAAACAGCTTTATCCAAAGGAAAACGATTTGGTGTTTTTAGCTCCTGAGAGAATAAATGAAGAGAAGAAAGATACAGAGAGAAATGACATACAAGATCTCCACGAATATCATTCTGGTTATGTTCATAAATTTCGCCGCACGTCAGTCATGCGTAATGGGAAAACTGAGTGTTACCTTTCCATCCAGACTCAAGAGAACCTTCCGGCCAATTTAAACGAACTTGTGAATTGTATTGTAATCAGTTCTCTGGTAACTACACAAAGGAAGTTGAAAGCCATGTCTCTGTTGGGTAGTCGGAACCAACTGGCTAGAGCTGTTCTGAATCCAAACCCTATGGACTTCTGTACAAAAGATTTACTGACTACAACATCTGAGAGAATTATTGCGTACTTAAGAGATTTCAATGAAGATCAAAAGAAAGCAATAGAAACTGCATATGCTATGGTGAAACACTCACCATCAGTTGCCAAAATCTGCTTGATTCATGGACCACCTGGAACAGGAAAATCAAAAACTATTGTTGGCCTCCTCTATCGTCTACTGACAGAGAACCAGAGGAAGGGGCATTCAGACGAAAACTCCAATGCCAAAATCAAACAAAACCGTGTCCTCGTGTGTGCACCTTCCAATGCAGCTGTTGATGAACTCATGAAAAAAATTATCCTTGAATTCAAAGAAAAATGTAAAGACAAGAAGAATCCTTTAGGAAACTGTGGAGATATAAATTTAGTACGACTGGGTCCAGAAAAGTCTATTAATAGTGAGGTTCTAAAGTTCAGTTTGGACAGCCAAGTAAACCACAGAATGAAAAAAGAGTTACCTTCTCATGTTCAGGCGATGCATAAAAGAAAGGAATTTCTAGATTATCAGCTGGATGAGCTTTCCCGGCAGCGAGCTCTATGCCGAGGTGGACGGGAAATACAGAGGCAAGAATTAGATGAAAACATTTCCAAAGTTTCTAAGGAAAGGCAGGAACTTGCTTCTAAAATTAAAGAGGTTCAAGGACGCCCACAGAAAACACAGAGTATCATCATCTTAGAGTCCCATATCATCTGCTGCACGTTGAGCACAAGTGGTGGTTTACTACTTGAGTCTGCTTTCCGTGGGCAAGGGGGTGTCCCCTTCAGCTGTGTCATTGTTGATGAGGCTGGACAGTCTTGTGAAATTGAGACTCTTACTCCACTCATCCATCGCTGCAATAAGCTCATCCTAGTAGGAGATCCTAAGCAGCTCCCTCCGACAGTCATCTCTATGAAAGCACAGGAGTATGGCTACGACCAGTCAATGATGGCTCGCTTCTGCAGACTGCTGGAAGAGAATGTAGAACACAACATGATCAGCAGGCTGCCCATTCTACAGCTCACTGTTCAGTACAGGATGCATCCAGACATATGCCTCTTCCCTTCTAATTATGTTTATAACAGAAACTTAAAAACAAATAGACAGACAGAAGCCATTCGATGTTCATCAGATTGGCCATTTCAGCCATACCTTGTGTTTGATGTTGGAGATGGTTCAGAAAGACGGGATAATGACTCATATATAAATGTTCAAGAAATAAAACTGGTGATGGAAATAATTAAGCTTATTAAAGACAAAAGAAAGGATGTTAGTTTTCGAAACATTGGCATAATAACTCATTACAAGGCCCAGAAGACGATGATTCAGAAGGATTTGGACAAAGAGTTCGATAGAAAAGGACCAGCAGAAGTAGACACTGTGGATGCATTCCAGGGTCGGCAGAAGGATTGTGTTATTGTTACGTGTGTCAGAGCAAATAGCATCCAAGGTTCAATTGGATTCCTGGCAAGTTTGCAGAGATTGAATGTCACCATCACACGAGCCAAGTACAGCCTCTTCATCCTCGGACATTTGAGGACCCTGATGGAAAACCAGCATTGGAATCAGCTGATTCAGGATGCTCAGAAGCGTGGTGCCATTATTAAGACCTGTGACAAAAACTATAGACATGATGCAGTGAAGATTCTGAAACTCAAGCCTGTGCTGCAGAGAAGTCTCACTCACCCTCCTACCATAGCCCCAGAGGGGTCCAGACCCCAGGGTGGTTTGCCCAGCAGCAAGCTAGACAGTGGATTTGCCAAGACATCTGTTGCTGCTTCTCTATACCACACACCCTCTGACTCCAAGGAAATTACTCTTACTGTTACTTCAAAGGACCCTGAAAGACCTCCTGTTCATGACCAACTTCAGGACCCACGACTGCTGAAGAGGATGGGCATTGAGGTCAAAGGAGGAATATTCCTTTGGGATCCACAACCCTCGAGCCCCCAGCATCCTGGAGCAACACCTCCTACGGGCGAGCCGGGCTTCCCTGTCGTTCACCAGGACCTGAGCCATATACAGCAGCCCGCTGCTGTAGTGGCTGCTCTGAGCAGCCACAAACCTCCCGTGCGGGGCGAACCTCCAGCTGCCAGTCCCGAGGCTTCCACGTGTCAGAGCAAATGTGATGACCCGGAAGAGGAGCTCTGTCACAGGAGAGAGGCCAGGGCTTTCAGTGAAGGGGAGCAGGAGAAGTGTGGTTCCGAGACCCATCACACCAGGAGGAACTCTAGGTGGGACAAGAGGACACTGGAGCAGGAGGACAGCAGTTCCAAGAAAAGAAAGCTTTTATAG
|
DM462148
|
Methods of Detecting Mutations Associated With Ataxia-Ocular Apraxia 2 (AOA2)
| 1
| 8,034
|
DM462149.1
|
ATAACTTCGTATAATGTATGCTATACGAAGTTAT
|
DM462149
|
MODULAR GENOMES FOR SYNTHETIC BIOLOGY AND METABOLIC ENGINEERING
| 1
| 34
|
DM462150.1
|
ATAACTTCGTATAATGTATACTATACGAAGTTAT
|
DM462150
|
MODULAR GENOMES FOR SYNTHETIC BIOLOGY AND METABOLIC ENGINEERING
| 1
| 34
|
DM462151.1
|
ATAACTTCGTATAATGTGTACTATACGAAGTTAT
|
DM462151
|
MODULAR GENOMES FOR SYNTHETIC BIOLOGY AND METABOLIC ENGINEERING
| 1
| 34
|
DM462152.1
|
ATAACTTCGTATAAAGTATCCTATACGAAGTTAT
|
DM462152
|
MODULAR GENOMES FOR SYNTHETIC BIOLOGY AND METABOLIC ENGINEERING
| 1
| 34
|
DM462153.1
|
ATAACTTCGTATAAGAAACCATATACGAAGTTAT
|
DM462153
|
MODULAR GENOMES FOR SYNTHETIC BIOLOGY AND METABOLIC ENGINEERING
| 1
| 34
|
DM462154.1
|
ATAACTTCGTATATAATACCATATACGAAGTTAT
|
DM462154
|
MODULAR GENOMES FOR SYNTHETIC BIOLOGY AND METABOLIC ENGINEERING
| 1
| 34
|
DM462155.1
|
ATAACTTCGTATAAGATAGAATATACGAAGTTAT
|
DM462155
|
MODULAR GENOMES FOR SYNTHETIC BIOLOGY AND METABOLIC ENGINEERING
| 1
| 34
|
DM462156.1
|
ATAACTTCGTATACGATACCATATACGAAGTTAT
|
DM462156
|
MODULAR GENOMES FOR SYNTHETIC BIOLOGY AND METABOLIC ENGINEERING
| 1
| 34
|
DM462157.1
|
TACCGTTCGTATAATGTATGCTATACGAAGTTAT
|
DM462157
|
MODULAR GENOMES FOR SYNTHETIC BIOLOGY AND METABOLIC ENGINEERING
| 1
| 34
|
DM462158.1
|
ATAACTTCGTATAATGTATGCTATACGAACGGTA
|
DM462158
|
MODULAR GENOMES FOR SYNTHETIC BIOLOGY AND METABOLIC ENGINEERING
| 1
| 34
|
DM462159.1
|
GAGGAACGAAGATTATCGAGAGCAAAAATCATGAGTAGTACGATGTTCGTGAAACGGAATCCGATTAGAGAAACCACCGCCGGGAAAATCTCTTCGCCGTCGTCACCGACTTTGAATGTTGCAGTCGCGCATATAAGAGCTGGATCTTATTACGAAATCGATGCTTCGATTCTTCCTCAGAGATCGCCGGAAAATCTTAAATCGATTAGAGTCGTCATGGTGAGCAAAATCACGGCGAGTGACGTGTCTCTCCGGTACCCAAGCATGTTTTCACTCCGATCGCATTTCGATTACAGTAGGATGAACCGGAATAAACCGATGAAGAAGAGGAGTGGTGGTGGTCTTCTTCCTGTTTTCGACGAGAGTCATGTGATGGCTTCGGAGCTAGCTGGAGACTTGCTTTACAGAAGAATCGCACCTCATGAACTTTCTATGAATAGAAATTCCTGGGGTTTCTGGGTTTCTAGTTCTTCTCGCAGGAACAAATTTCCAAGAAGGGAGGTGGTTTCTCAACCGGCGTACAATACTCGTCTCTGTCGCGCTGCTTCACCGGAGGGAAAGTGCTCGTCTGAGCTGAAATCGGGAGGGATGATCAAGTGGGGAAGGAGATTGCGTGTGCAGTATCAGAGTCGGCATATTGATACTAGGAAGAATAAGGAAGGTGAGGAGAGTTCTAGAGTGAAGGATGAAGTTTACAAAGAAGAAGAGATGGAGAAAGAAGAGGATGATGATGATGGGAATGAAATAGGAGGCACTAAACAAGAGGCAAAGGAGATAACTAATGGAAATCGTAAGAGAAAGCTGATTGAATCAAGTACTGAGAGACTCGCTCAGAAAGCTAAGGTTTATGATCAGAAGAAGGAAACTCAAATTGTGGTTTATAAGAGGAAATCAGAGAGGAAGTTCATTGATAGATGGTCTGTTGAGAGGTACAAACTAGCTGAGAGGAACATGTTAAAAGTGATGAAGGAGAAGAATGCAGTGTTTGGCAACTCCATACTCAGGCCAGAGTTGAGGTCAGAAGCAAGGAAGCTGATTGGTGACACAGGTCTATTGGATCATCTGCTTAAGCACATGGCTGGTAAGGTGGCTCCTGGAGGTCAAGATAGGTTTATGAGAAAGCACAATGCAGATGGGGCAATGGAGTATTGGTTGGAGAGTTCTGATTTGATTCACATAAGGAAAGAAGCAGGAGTTAAAGATCCTTACTGGACTCCTCCACCTGGTTGGAAGCTTGGTGACAACCCTTCTCAAGATCCTGTCTGCGCTGGAGAAATCCGTGACATCAGAGAAGAATTAGCTAGCCTGAAAAGAGAATTGAAGAAACTTGCGTCAAAGAAGGAAGAGGAGGAGCTTGTTATCATGACTACGCCTAATTCTTGTGTTACTAGTCAGAATGATAATCTGATGACTCCAGCAAAGGAAATCTACGCTGATCTGCTGAAAAAGAAATACAAAATTGAGGACCAGCTAGTGATTATTGGAGAAACCTTGCGTAAAATGGAGGAAGACATGGGATGGCTTAAGAAAACAGTGGACGAGAACTATCCTAAAAACCAGACTCAACAGAGACACCTTTGCTACTAGAGGATTCACCACCAATACAGACACTAGAAGGAGAAGTGAAGGTGGTGAACAAGGGTAACCAAATCACAGAGTCACCTCAAAACAGAGAAAAAGGAAGGAAGCATGATCAACAAGAAAGATCACCACTTTCACTAATAAGCAACACTGGTTTCAGAATCTGCAGGCCTGTGGGGATGTTCGCATGGCCCCAATTGCCTGCTCTTGCTGCTGCTACTGATACTAATGCTTCTTCGCCAAGTCACAGACAAGCCTACCCATCCCCTTTTCCAGTCAAGCCACTTGCAGCTAAGCGTCCTCTTGGCTTGACGTTTCCCTTCACCATCATACCCGAAGAAGCTCCCAAGAATCTCTTCAACGTTTGAAGTTGTCACTGGAAACTGATGCATCAGATC
|
DM462159
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 1,979
|
DM462160.1
|
ATGAGTAGTACGATGTTCGTGAAACGGAATCCGATTAGAGAAACCACCGCCGGGAAAATCTCTTCGCCGTCGTCACCGACTTTGAATGTTGCAGTCGCGCATATAAGAGCTGGATCTTATTACGAAATCGATGCTTCGATTCTTCCTCAGAGATCGCCGGAAAATCTTAAATCGATTAGAGTCGTCATGGTGAGCAAAATCACGGCGAGTGACGTGTCTCTCCGGTACCCAAGCATGTTTTCACTCCGATCGCATTTCGATTACAGTAGGATGAACCGGAATAAACCGATGAAGAAGAGGAGTGGTGGTGGTCTTCTTCCTGTTTTCGACGAGAGTCATGTGATGGCTTCGGAGCTAGCTGGAGACTTGCTTTACAGAAGAATCGCACCTCATGAACTTTCTATGAATAGAAATTCCTGGGGTTTCTGGGTTTCTAGTTCTTCTCGCAGGAACAAATTTCCAAGAAGGGAGGTGGTTTCTCAACCGGCGTACAATACTCGTCTCTGTCGCGCTGCTTCACCGGAGGGAAAGTGCTCGTCTGAGCTGAAATCGGGAGGGATGATCAAGTGGGGAAGGAGATTGCGTGTGCAGTATCAGAGTCGGCATATTGATACTAGGAAGAATAAGGAAGGTGAGGAGAGTTCTAGAGTGAAGGATGAAGTTTACAAAGAAGAAGAGATGGAGAAAGAAGAGGATGATGATGATGGGAATGAAATAGGAGGCACTAAACAAGAGGCAAAGGAGATAACTAATGGAAATCGTAAGAGAAAGCTGATTGAATCAAGTACTGAGAGACTCGCTCAGAAAGCTAAGGTTTATGATCAGAAGAAGGAAACTCAAATTGTGGTTTATAAGAGGAAATCAGAGAGGAAGTTCATTGATAGATGGTCTGTTGAGAGGTACAAACTAGCTGAGAGGAACATGTTAAAAGTGATGAAGGAGAAGAATGCAGTGTTTGGCAACTCCATACTCAGGCCAGAGTTGAGGTCAGAAGCAAGGAAGCTGATTGGTGACACAGGTCTATTGGATCATCTGCTTAAGCACATGGCTGGTAAGGTGGCTCCTGGAGGTCAAGATAGGTTTATGAGAAAGCACAATGCAGATGGGGCAATGGAGTATTGGTTGGAGAGTTCTGATTTGATTCACATAAGGAAAGAAGCAGGAGTTAAAGATCCTTACTGGACTCCTCCACCTGGTTGGAAGCTTGGTGACAACCCTTCTCAAGATCCTGTCTGCGCTGGAGAAATCCGTGACATCAGAGAAGAATTAGCTAGCCTGAAAAGAGAATTGAAGAAACTTGCGTCAAAGAAGGAAGAGGAGGAGCTTGTTATCATGACTACGCCTAATTCTTGTGTTACTAGTCAGAATGATAATCTGATGACTCCAGCAAAGGAAATCTACGCTGATCTGCTGAAAAAGAAATACAAAATTGAGGACCAGCTAGTGATTATTGGAGAAACCTTGCGTAAAATGGAGGAAGACATGGGATGGCTTAAGAAAACAGTGGACGAGAACTATCCTAAATAA
|
DM462160
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 1,527
|
DM462161.1
|
ATGAGTAGTACGATGTTCGTGAAACGGAATCCGATTAGAGAAACCACCGCCGGGAAAATCTCTTCGCCGTCGTCACCGACTTTGAATGTTGCAGTCGCGCATATAAGAGCTGGATCTTATTACGAAATCGATGCTTCGATTCTTCCTCAGAGATCGCCGGAAAATCTTAAATCGATTAGAGTCGTCATGGTGAGCAAAATCACGGCGAGTGACGTGTCTCTCCGGTACCCAAGCATGTTTTCACTCCGATCGCATTTCGATTACAGTAGGATGAACCGGAATAAACCGATGAAGAAGAGGAGTGGTGGTGGTCTTCTTCCTGTTTTCGACGAGAGTCATGTGATGGCTTCGGAGCTAGCTGGAGACTTGCTTTACAGAAGAATCGCACCTCATGAACTTTCTATGAATAGAAATTCCTGGGGTTTCTGGGTTTCTAGTTCTTCTCGCAGGAACAAATTTCCAAGAAGGGAGGTGGTTTCTCAACCGGCGTACAATACTCGTCTCTGTCGCGCTGCTTCACCGGAGGGAAAGTGCTCGTCTGAGCTGAAATCGGGAGGGATGATCAAGTGGGGAAGGAGATTGCGTGTGCAGTATCAGAGTCGGCATATTGATACTAGGAAGAATAAGGAAGGTGAGGAGAGTTCTAGAGTGAAGGATGAAGTTTACAAAGAAGAAGAGATGGAGAAAGAAGAGGATGATGATGATGGGAATGAAATAGGAGGCACTAAACAAGAGGCAAAGGAGATAACTAATGGAAATCGTAAGAGAAAGCTGATTGAATCAAGTACTGAGAGACTCGCTCAGAAAGCTAAGGTTTATGATCAGAAGAAGGAAACTCAAATTGTGGTTTATAAGAGGAAATCAGAGAGGAAGTTCATTGATAGATGGTCTGTTGAGAGGTACAAACTAGCTGAGAGGAACATGTTAAAAGTGATGAAGGAGAAGAATGCAGTGTTTGGCAACTCCATACTCAGGCCAGAGTTGAGGTCAGAAGCAAGGAAGCTGATTGGTGACACAGGTCTATTGGATCATCTGCTTAAGCACATGGCTGGTAAGGTGGCTCCTGGAGGTCAAGATAGGTTTATGAGAAAGCACAATGCAGATGGGGCAATGGAGTATTGGTTGGAGAGTTCTGATTTGATTCACATAAGGAAAGAAGCAGGAGTTAAAGATCCTTACTGGACTCCTCCACCTGGTTGGAAGCTTGGTGACAACCCTTCTCAAGATCCTGTCTGCGCTGGAGAAATCCGTGACATCAGAGAAGAATTAGCTAGCCTGAAAAGAGAATTGAAGAAACTTGCGTCAAAGAAGGAAGAGGAGGAGCTTGTTATCATGACTACGCCTAATTCTTGTGTTACTAGTCAGAATGATAATCTGATGACTCCAGCAAAGGAAATCTACGCTGATCTGCTGAAAAAGAAATACAAAATTGAGGACCAGCTAGTGATTATTGGAGAAACCTTGCGTAAAATGGAGGAAGACATGGGATGGCTTAAGAAAACAGTGGACGAGAACTATCCTAAAAAGCCAGACTCAACAGAGACACCTTTGCTACTAGAGGATTCACCACCAATACAGACACTAGAAGGAGAAGTGAAGGTGGTGAACAAGGGTAACCAAATCACAGAGTCACCTCAAAACAGAGAAAAAGGAAGGAAGCATGATCAACAAGAAAGATCACCACTTTCACTAATAAGCAACACTGGTTTCAGAATCTGCAGGCCTGTGGGGATGTTCGCATGGCCCCAATTGCCTGCTCTTGCTGCTGCTACTGATACTAATGCTTCTTCGCCAAGTCACAGACAAGCCTACCCATCCCCTTTTCCAGTCAAGCCACTTGCAGCTAAGCGTCCTCTTGGCTTGACGTTTCCCTTCACCATCATACCCGAAGAAGCTCCCAAGAATCTCTTCAACGTTTGA
|
DM462161
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 1,920
|
DM462162.1
|
CTCTGTCACTCTTTTCCTCTGG
|
DM462162
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 22
|
DM462163.1
|
CATGCAATTTGCATCTGAGG
|
DM462163
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 20
|
DM462164.1
|
TCTCCCCACTAGTTTTGTGTCC
|
DM462164
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 22
|
DM462165.1
|
GAAATCCAAATCCCAGAGAGG
|
DM462165
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 21
|
DM462166.1
|
GAGGACATGTATAGGAGCCTCG
|
DM462166
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 22
|
DM462167.1
|
TCGTCTACTGCACTGCCG
|
DM462167
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 18
|
DM462168.1
|
CGACGAATCGACAGAATTAGG
|
DM462168
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 21
|
DM462169.1
|
GCGAAAAAACAAAAAAATCCA
|
DM462169
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 21
|
DM462170.1
|
ATGGAGAAGCTTACACTGATC
|
DM462170
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 21
|
DM462171.1
|
TGGATTTCTTCCTCTCTTCAC
|
DM462171
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 21
|
DM462172.1
|
GATCTGATGCATCAGTTTCAGGTGACAGCTTCAAACGTTGAAGAGATTTGTTGGAGCTTCTTCGGGAGTGTCGGTGAAAGGAAACGGCAAGCCGAGAGGGGGCTTAGCTGCAAGTGGCTTGACTGGACAAAGAGATGGGTAAATTGGTCCGTGACTTGGCGAAGAAGCAAGTTCTTTAGCATTACTGTTTGACAACACAGTATCAGTAGCAGCAGCAAGAGCAGGCAATTTGGGCCATGCGAAAATCCCCACAGGCCTGCAGATTCTGAAACCAGTGTTGCTTATAAGTGAAAGTGGTGATCGTTCTTGTTGATCATGCTTCTTGCATTTTTCTCTGTTTTGAGGTGACTCTGTGATTTGGTTTCCCTTGTTCACCTCCTTCACTTCTCCTTCTAGTGTCTCCATTGTTGGCGAATCCGCTAGTACCAAAGGTGTCGCTGATGAGTCTGGCTTTCGAGGAAAGTTCTCGTCCACTGTTTTCTTAAGCCATCCCATGTCTTCCTGCAATATTTGCATTCATAAAAACACAAATGTTTCATCATTCATTACCAGCAAAGTGGCATCTAATAGAGACAGTGGAAATGTTTGATCACACACGCTAAATGGACCCATTTTACATGGCATTCAGTGCGTTTCTCCAAGGGAGTTTCCTAGTGACTACTTGATAGTTACTAAATCATAGCAAATTTAGAAGATTTTACATTTTAAGTAATGGTTCAGCTAGAACTAGTAAGGAGAGTGTCAGTGTTTAGAAACTCAGTCTGGGATTTATATACCTCCATTGTACACAAGGTTTCTCCAATTATCACTAGCTGGTCCTCAATTTTGTATTTCTTCTTTAGCAGATCAGCGTAGATTTCCTGAGATGAAGTAGCAGAGATGTTCAAAACGTACCATAAACCAGTATCACAAGATAGAGAGATCTGTTACTGTTTCAAGCTCTTACCTTTGCTGGAGTCGTCAAATTATCATTGTCCACGTTCTGACTAGTAACACAAGAATTTGGTGTAGTCACGATAACAAGCTCCTCCTCTTCCTTCTTTGACGCCAGTTTCTCCAATTCTCTTCTCAAGACCAAGACAAACATGAATTACAAAATTGCTATAAGTAACAAAAGAGATGATCATATAACCAATTCAATAAGTTAATTCTTCTACCTTTTCAGGCTAGCTAATTCTTCTCTGATCTCACGGATTTCTCCGGCGCAGACAGGATCTTGAGTAGGGTTGTCACCAAGCTTCCAACCAGGTGGAGGCGTCCAGTAAGGATCTTCAACTCCTGCTTCTTTCCTTATGTGAATCAAATCAGAACTCTCCAACCAATACTCCATTGCCCCATCTGCATTGTGCTTTCTCATAAACCTATCTTGACCTCCAGGAGCCACCTTACCTGCCATGTGCTTAAGCATATGATCTAAAAGACCAGTGTCACCGATCAGCTTCCTTGCTTCTGACCTTAACTGTGACCTGAGTATGGAGTTGCCAAACACTGCATTTTTCTCCTTCATCACTTTTAACATGTTCCTCTCAGCTAGTTTGTACCTTCAAATTCCAAAATTAACCACAATCAATCAGATGAACCAAGACAAATCCAATTTCAGAGATCATCAAATTCGTTAAATATTCACTTTACCTATCAACAGACCATCTGCCAATGAATTTCTTCTCTGCTCTTCTCTTATAGACCACGATTTGATTTTCCTTCTTCTGATCATAAACCTTAGCCCTCTGAGCGAGTCTCTCAGTACTGGATTCAATCAGCTTTCTCTTACGATTTCCATCAGTCATCTCGTTTGCAATCTGTTTAGTCTCTTCTGTTTCATTCCCATCATCATCATCATCATTTTCTTCCTCAATCTCTTCTTTGCAAACCCCTCCCTCCTTCACTCCAGAACTCTCCTTACCTTCCGTATTCTTCTTACAATCAATATGCCGACTCTTGTACTGCACACGCAATCTCCTCCCCCACTTAATCATTTCTCCAGATCTCAGCTCAGACCAACATTTTCCCTCCGGTGAAGCCGCGCGACAGAGCCTAGTATTGTACGCCGGTTGAGAAATCATCTTGTTCCTGCGAGAAGAAGCAGAAGAAACCCAGAAACTCCACGAATTTCTGTTCATAGAAACTTCATGAGGTGCGATTCTTCTGTAAAGCAAATCTCCAGCTAGCTCCGAAACCATCACATGGCTCTCGTCAAAAAGAGGAAGAAGACCACCACCACTCCTCTTCTTCAAAGGTTTATTCCGGTTCATCCTGCTGCAATCGAAATGCGATCGGAGTGAGTACATGCTTGGGTATCGGAGAGACACGTCGCTCGCCGTGATTTTGCTCACCTGCAACAACAACCAAAAAAACGCCAAAATCACTCGAAAACCCAGACGAACAACAAAAATGCAGATCCGTCTCTAATGGTGAAACAAAAAGCAGAGAATCCATTAAATACCATGACGACTCTAATCGATTTAAGGTTCTCCGGCGATCTTTGAGGAAGAATCGAAGAATCGATTTCGTAATACGATCCAACTCTTATATGCGCGACTGCAACTGGAAGAACAAAACCAAAGAAAAAAAAACTGGAATTAGAAGAAAAGCGAGAAAATCAACAAAAACGGGGAAACTATAGCTTCAGTGTTTTACCATTCACAGTCGATGACGATGGCGAAGAATTTTTTCCGGCAGAGATTTCTCTAATCGGATTCCGTTTCAGGAACATCGTTCCCTGTAGAAGAAGAAGAAGTATATAACTCAGAGAGGTTCACTATTTTTTTATTTTTGTGTTGAATCAAAAATGGAAACTGTTAAGGACCGGAGAATATATTTGAAAAAAGCTGACTCTGCGAGTATAACAAGAAAACACACGCGCTCTCTGGTACGCGCGTGGGAGACACAAAGGCAACAGAATCAAGCGGTGATGATTTTTATTTTCTACCGTCATGAGAGTGTTAGAGACTGAGCTATTACAGAGAGAGAGAGAGAGATCTTACGCTCATGATTTTTGCTC
|
DM462172
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 3,001
|
DM462173.1
|
ATGAGCGGAACGATGTTCCTGAAACGGAATCCGATTAGAGAAATCTCTGCCGGAAAAAATTCTTCGCCATCGTCATCGACTGTGAATGTTGCAGTCGCGCATATAAGAGTTGGATCGTATTACGAAATCGATTCTTCGATTCTTCCTCAAAGATCGCCGGAGAACCTTAAATCGATTAGAGTCGTCATGGTGAGCAAAATCACGGCGAGCGACGTGTCTCTCCGATACCCAAGCATGTACTCACTCCGATCGCATTTCGATTGCAGCAGGATGAACCGGAATAAACCTTTGAAGAAGAGGAGTGGTGGTGGTCTTCTTCCTCTTTTTGACGAGAGCCATGTGATGGTTTCGGAGCTAGCTGGAGATTTGCTTTACAGAAGAATCGCACCTCATGAAGTTTCTATGAACAGAAATTCGTGGAGTTTCTGGGTTTCTTCTGCTTCTTCTCGCAGGAACAAGATGATTTCTCAACCGGCGTACAATACTAGGCTCTGTCGCGCGGCTTCACCGGAGGGAAAATGTTGGTCTGAGCTGAGATCTGGAGAAATGATTAAGTGGGGGAGGAGATTGCGTGTGCAGTACAAGAGTCGGCATATTGATTGTAAGAAGAATACGGAAGGTAAGGAGAGTTCTGGAGTGAAGGAGGGAGGGGTTTGCAAAGAAGAGATTGAGGAAGAAAATGATGATGATGATGATGGGAATGAAACAGAAGAGACTAAACAGATTGCAAACGAGATGACTGATGGAAATCGTAAGAGAAAGCTGATTGAATCCAGTACTGAGAGACTCGCTCAGAGGGCTAAGGTTTATGATCAGAAGAAGGAAAATCAAATCGTGGTCTATAAGAGAAGAGCAGAGAAGAAATTCATTGGCAGATGGTCTGTTGATAGGTACAAACTAGCTGAGAGGAACATGTTAAAAGTGATGAAGGAGAAAAATGCAGTGTTTGGCAACTCCATACTCAGGTCACAGTTAAGGTCAGAAGCAAGGAAGCTGATCGGTGACACTGGTCTTTTAGATCATATGCTTAAGCACATGGCAGGTAAGGTGGCTCCTGGAGGTCAAGATAGGTTTATGAGAAAGCACAATGCAGATGGGGCAATGGAGTATTGGTTGGAGAGTTCTGATTTGATTCACATAAGGAAAGAAGCAGGAGTTGAAGATCCTTACTGGACGCCTCCACCTGGTTGGAAGCTTGGTGACAACCCTACTCAAGATCCTGTCTGCGCCGGAGAAATCCGTGAGATCAGAGAAGAATTAGCTAGCCTGAGAAGAGAATTGGAGAAACTGGCGTCAAAGAAGGAAGAGGAGGAGCTTGTTATCGTGACTACACCAAATTCTTGTGTTACTAGTCAGAACGTGGACAATGATAATTTGACGACTCCAGCAAAGGAAATCTACGCTGATCTGCTAAAGAAGAAATACAAAATTGAGGACCAGCTAGTGATAATTGGAGAAACCTTGTGTACAATGGAGGAAGACATGGGATGGCTTAAGAAAACAGTGGACGAGAACTTTCCTCGAAAGCCAGACTCATCAGCGACACCTTTGGTACTAGCGGATTCGCCAACAATGGAGACACTAGAAGGAGAAGTGAAGGAGGTGAACAAGGGAAACCAAATCACAGAGTCACCTCAAAACAGAGAAAAATGCAAGAAGCATGATCAACAAGAACGATCACCACTTTCACTTATAAGCAACACTGGTTTCAGAATCTGCAGGCCTGTGGGGATTTTCGCATGGCCCAAATTGCCTGCTCTTGCTGCTGCTACTGATACTGTGTTGTCAAACAGTAATGCTAAAGAACTTGCTTCTTCGCCAAGTCACGGACCAATTTACCCATCTCTTTGTCCAGTCAAGCCACTTGCAGCTAAGCCCCCTCTCGGCTTGCCGTTTCCTTTCACCGACACTCCCGAAGAAGCTCCAACAAATCTCTTCAACGTTTGA
|
DM462173
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 1,947
|
DM462174.1
|
ATGGACGCGGAGATGGCGGCTCCTGCGCTTGCGGCAGCTCATCTGCTGGACTCGCCCATGAGGCCACAGGTGAGCAGATACTACTCCAAGAAGAGGGGTAGCAGCCACAGCAGAAATGGCAAGGATGATGCCAACCATGACGAGTCCAAGAACCAATCACCCGGCTTGCCCCTGAGCAGACAGAGCCTGTCCTCATCTGCCACCCACACCTACCACACCGGAGGGTTCTACGAGATCGACCACGAGAAGCTTCCCCCCAAATCCCCAATTCATCTCAAGTCCATACGCGTGGTAAAGGTGAGCGGCTACACAAGCCTGGACGTCACAGTGAGCTTCCCGTCCCTCCTGGCGCTGCGAAGCTTCTTCTCCTCCTCCCCACGGTCGTGCACTGGGCCGGAGCTCGACGAGCGCTTCGTCATGAGCAGCAACCACGCGGCCCGCATCCTGCGCCGTCGGGTGGCCGAGGAGGAGCTCGCGGGCGACGTGATGCACCAGGACAGCTTCTGGCTCGTCAAGCCCTGCCTCTATGACTTCTCCGCGTCGTCACCACATGATGTGCTGACCCCGTCGCCGCCGCCTGCCACAGCGCAGGCGAAGGCGCCGGCAGCCAGTTCCTGCCTTCTCGACACCTTGAAGTGCGACGGCGCCGGGTGGGGCGTGAGGCGCCGTGTCAGGTACATTGGTCGCCACCACGATGCTTCCAAGGAGGCCAGCGCTGCCAGCCTCGATGGCTACAACACAGAGGTCAGCGTCCAGGAGGAGCAGCAGCAGCGACTGCGGCTTCGACTGCGGTTGCGACAACGCCGGGAGCAGGAAGACAACAAGAGCACTAGCAATGGCAAGAGGAAGCGGGAGGAGGCAGAGAGCAGCATGGACAAGAGCAGAGCCGCCAGGAAGAAGAAAGCCAAGACTTACAAGAGTCCCAAGAAGGTGGAGAAGAGGCGCGTCGTGGAGGCTAAAGACGGCGACCCTCGGCGCGGCAAGGACCGGTGGTCGGCCGAGCGGTACGCAGCGGCGGAGAGGAGCCTGCTGGATATAATGCGCTCCCATGGTGCCTGCTTCGGTGCGCCGGTGATGCGGCAGGCTCTGCGGGAGGAAGCCCGCAAGCATATCGGTGACACCGGCCTCCTTGACCACCTGCTCAAGCACATGGCCGGCAGGGTACCGGAAGGCAGCGCGGACCGGTTCCGTCGCCGGCACAATGCGGATGGTGCCATGGAGTACTGGCTGGAGCCGGCGGAGCTTGCCGAGGTACGGCGGCTGGCTGGAGTGTCTGATCCATACTGGGTGCCGCCACCTGGGTGGAAGCCAGGTGATGACGTGTCCGCAGTCGCCGGTGACCTCCTGGTCAAGAAGAAGGTGGAAGAGCTCGCTGAGGAGGTTGATGGTGTAAAAAGGCACATCGAGCAGCTCAGTTCTAATTTGGTGCAGCTGGAGAAGGAAACAAAATCTGAGGCAGAGCGATCTTACAGCTCTAGGAAGGAGAAGTATCAGAAGTTGATGAAGGCAAATGAAAAGCTCGAGAAACAGGTGTTATCTATGAAGGATAAATACAAGCTTGTGCTGGAGAAGAATGATAAACTGGAGGAACAGATGGCTAGTCTCTCCAGCTCCTTCCTTTCTTTGAAGGAACAATTGCTGCTGCCAAGAAATGGAGATAATCTGAACATGGAAAGGTAA
|
DM462174
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 1,680
|
DM462175.1
|
GAGCTCTTTGGTCCGGAGACGGTAGAAGACGACAAAGCACTGACCTTTCATCTCTCGGCGATCGAAAAAATCACTCTCTTTCCTCATCAGACCCGACCCGTTATGAAGGTATCCAGACCCGTTTATTTTGATCCATCTCATAGTCGGATCCCCAAAAAAATTCAGCTTAGATTGGCCCATTTAGGCCCGTTTACAGTTTTTTACTTTTTTCTTAATTATCTTTTTAACATCTTACATTATACATATTTGACTCAACAAAAAAATATAACTTAAATGTATTGTTGACTGTTTTTGATAATTAAGAAAAAAATATTTTTAAATTATTAAAAATATTGTTGACTCAACAAAAAAATATAACTTAAATGTATTGGGCAAATAATCATGGTCATAAGTCCTCAAGCTTATTATTTGTTTTGATTGGTTTAAATACTTTATAAAAAAAATATCAATTATATCATGTTATTACGTAAATTAAGCTTTTTGATTTTAAAAAAGCTTCAGCTCAATAAAGAAAAACAGATTCAGTTATCATTGGAGTATAAAATTGGTCGATACATTAGAGACATTAATCCTTACATCATAAACAATTTAATGTGAATAAAACATCATAAATCACATATCATTATCCGAAAATAATCATATGTAAGAATAATCACTGTGACAAAAAAAAAAAACAATTCCTCACGTGTGTAGTCGGTCCCCACTCTAGTAGCAGTAGCTTAATGATGCCTTCTCCGCACGTGTAACACGAAATTTATTCGCTACGGCCAATTACATTAACCTTCAGGTCTTATCACCGTTAAATTTTCAAAATGACACACGTGGCATCAATCCGTAATATCACTACGTCTGCTTTCAATCTTTCATTGTAGATGATTTCGTACACCAATTTCCGCGAACGTTTACAGTTTAGATACAGTTTGAGGGCAAATCTGTCAATATACGCCAACTTGCTGCGAAAGCAATATAGTCACGTGCCGTGCACACGCATATAAGACTCACACACTCACACCACTCTCTCTCTCTCTCTAACCTCATATATAAAGCCACCTCCCAGATTCATTAAATGCGACATTTCAAAACTTTTCTTTTTGCTGTCTTCCCCATAAGCTCTCTGCTGATTAAAAAGATTTTCTGGTATAAAACAAAATTCTTCAAATATTTCTGGGTTTATGTTTTCTCTCTATTTCTCAGAAATGCTTTAATTTCTCCATCCGCGTCCATGTTTTTTTTTCTCCGTTGCTGATTTTGATTTTTTTAATCCAGTGAAAAGGAGGAACGAAGATTATCGAGAGCAAAAATCATGAGTGTAAGATCTCTCTCGCTCTCAGATTTTATTTTTTTTCGCTGTGATATAAATGGCTCAGTCACTATCAGTCTCATGATGAGAAAAATAAAACTCATCACCGCTTGATTCTGTTTCCTTAGTGTCTCCCACGCGCGTACCAGAAAGCGCGTGTGTGTTTCTTGTTATACTCGCAGAGTCAGGTTTTTTCAAATATATTCTCTCCAGGCAGCAGCAACAACAACAAACCGATTTTTTCATTATTCCTTATAACAATTTTTGATTCTCCAGAAAAAAAATATCTCTCTTAGTTTTTCTCTTGTTCTA
|
DM462175
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 1,612
|
DM462176.1
|
ATGGACGCGGAGATGGCGGCTCCTGCGCTTGCGGCAGCTCATCTGCTGGACTCGCCCATGAGGCCACAGGTGAGCAGATACTACTCCAAGAAGAGGGGTAGCAGCCACAGCAGAAATGGCAAGGATGATGCCAACCATGACGAGTCCAAGAACCAATCACCCGGCTTGCCCCTGAGCAGACAGAGCCTGTCCTCATCTGCCACCCACACCTACCACACCGGAGGGTTCTACGAGATCGACCACGAGAAGCTTCCCCCCAAATCCCCAATTCATCTCAAGTCCATACGCGTGGTAAAGGTGAGCGGCTACACAAGCCTGGACGTCACAGTGAGCTTCCCGTCCCTCCTGGCGCTGCGAAGCTTCTTCTCCTCCTCCCCACGGTCGTGCACTGGGCCGGAGCTCGACGAGCGCTTCGTCATGAGCAGCAACCACGCGGCCCGCATCCTGCGCCGTCGGGTGGCCGAGGAGGAGCTCGCGGGCGACGTGATGCACCAGGACAGCTTCTGGCTCGTCAAGCCCTGCCTCTATGACTTCTCCGCGTCGTCACCACATGATGTGCTGACCCCGTCGCCGCCGCCTGCCACAGCGCAGGCGAAGGCGCCGGCAGCCAGTTCCTGCCTTCTCGACACCTTGAAGTGCGACGGCGCCGGGTGGGGCGTGAGGCGCCGTGTCAGGTACATTGGTCGCCACCACGATGCTTCCAAGGAGGCCAGCGCTGCCAGCCTCGATGGCTACAACACAGAGGTCAGCGTCCAGGAGGAGCAGCAGCAGCGACTGCGGCTTCGACTGCGGTTGCGACAACGCCGGGAGCAGGAAGACAACAAGAGCACTAGCAATGGCAAGAGGAAGCGGGAGGAGGCAGAGAGCAGCATGGACAAGAGCAGAGCCGCCAGGAAGAAGAAAGCCAAGACTTACAAGAGTCCCAAGAAGGTGGAGAAGAGGCGCGTCGTGGAGGCTAAAGACGGCGACCCTCGGCGCGGCAAGGACCGGTGGTCGGCCGAGCGGTACGCAGCGGCGGAGAGGAGCCTGCTGGATATAATGCGCTCCCATGGTGCCTGCTTCGGTGCGCCGGTGATGCGGCAGGCTCTGCGGGAGGAAGCCCGCAAGCATATCGGTGACACCGGCCTCCTTGACCACCTGCTCAAGCACATGGCCGGCAGGGTACCGGAAGGCAGCGCGGACCGGTTCCGTCGCCGGCACAATGCGGATGGTGCCATGGAGTACTGGCTGGAGCCGGCGGAGCTTGCCGAGGTACGGCGGCTGGCTGGAGTGTCTGATCCATACTGGGTGCCGCCACCTGGGTGGAAGCCAGGTGATGACGTGTCCGCAGTCGCCGGTGACCTCCTGGTCAAGAAGAAGGTGGAAGAGCTCGCTGAGGAGGTTGATGGTGTAAAAAGGCACATCGAGCAGCTCAGTTCTAATTTGGTGCAGCTGGAGAAGGAAACAAAATCTGAGGCAGAGCGATCTTACAGCTCTAGGAAGGAGAAGTATCAGAAGTTGATGAAGGCAAATGAAAAGCTCGAGAAACAGGTGTTATCTATGAAGGACATGTATGAGCATCTGGTTCAGAAAAAGGGTAAGCTGAAGAAGGAGGTGCTGTCCTTGAAGGATAAATACAAGCTTGTGCTGGAGAAGAATGATAAACTGGAGGAACAGATGGCTAGTCTCTCCAGCTCCTTCCTTTCTTTGAAGGAACAATTGCTGCTGCCAAGAAATGGAGATAATCTGAACATGGAAAGGGAAAGGGTGGAAGTGACTTTGGGCAAGCAAGAAGGCCTTGTTCCCGGCGAACCACTGTATGTTGATGGTGGTGACCGGATCAGCCAGCAAGCAGATGCCACCGTCGTCCAAGTCGGCGAGAAGAGGACGGCGAGGAAGAGCAGCTTCCGCATCTGCAAGCCACAGGGAACGTTCATGTGGCCACACATGGCGTCTGGCACGAGCATGGCCATCAGTGGGGGAGGCAGCAGCAGCTGCCCTGTCGCCTCCGGGCCAGAGCAGCTCCCTCGCAGCAGCAGCTGCCCCAGCATTGGGCCTGGTGGCCTCCCGCCGTCGTCACGAGCCCCAGCCGAGGTGGTGGTCGCGTCGCCACTGGACGAGCACGTGGCGTTCCGCGGGGGCTTCAACACGCCGCCCTCGGCATCGTCCACCAACGCCGCCGCTGCCGCCAAGCTGCCTCCCCTGCCCAGCCCGACGTCACCTCTCCAGACACGGGCCCTGTTCGCCGCTGGCTTCACTGTCCCGGCATTACACAACTTCTCCGGCCTCACCTTACGCCATGTGGACTCCTCGTCGCCGTCGTCCGCGCCATGCGGTGCTAGGGAGAAGATGGTGACCCTGTTCGATGGAGACTGCCGGGGGATCAGCGTCGTGGGCACCGAGCTGGCACTGGCCACTCCGTCCTACTGCTGA
|
DM462176
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 2,412
|
DM462177.1
|
CATTCGTTATGGCTAACGGAGTCACTGGGCCTTACATGCATCCACAGACCAGGTGCCGGAGTGCTGGTGCAAAACCAATTTATTGAATTTCTGAACAATTGGAGACGAAATAAATGTCTTTACTTCTTCAAACCCTTGATTTAAAAGTAAATGTATTATCTTTTATTGATTTTTTTATTCAATTCCTAGAATTAGTAGCTTGAAGAATTTATTAAATTTATCAGATAAATGAGAGGGATATACCCTTAAAATCGTCAAAAATAAATCTCAATTTACTTATAAATTGAAGAATACCTTCTTAAAAATAAAATAAAATTGCGTGCCATCCCTCTTTAGTAGATTTTGGCGCTACTCGTGTGGTGTGGGTACAGAGAAGAATATTAATATACCCGAGCTGGAACTAGAAGGTCACCCGCCATATCCAATGAGGCAATCCCGAACCTCTCCCACAAGCAAGCATCCGCCACGTGGTCAGAAGCTACAGAGGTTATGACCTGGCTAAACGATTGGCTACCAGGAACCAATGGCTCCTCAAAGGCCATAGATAAATAAATCTAAGAGCCAGTTTCTTTAGCTCTCAACTCTCTCAACCATCTATACAACATTTCCAGAGGCAACAAGACTCGGGAGGGGTAAAACGGTAAAATGGGAGACGTTACTGTAGAGGAGGGAGGGGGGGACCAGAATCCAGGTCACGTGAGGCGCATCCCGTCTGGTAATAATCATTACTATTTTTTTCTCTCTTTATAGCAGAAATGCACCACCATCGTTGGTTTCACAACAGAAAAAACTCCCTCCCCCTTCTCTCTGCGTTTTCTCTCAAGCTGTTTTTTCTTGCTCTCCAAACAATCCATCACAAGTAGCTTTTGAAACAGAAATTGAAAAAAAAAGGTCTCGTTTTATATTTATTTTTGCTGTTTAATTTTCAACCTGATTTTTTTCATGTGCATTAATTAATTAATGCTGGTGTAGTTACTCTTTGGCTGGTTGAATCGGTGCTGGTACTGGATAAAACATCTCAAAAGGAATGACCCATTTGCATGTCATTAAGGGGTGCATGTGTTTGAATGAGGAATTCAAACAAGTCCTGACATGAGTATGCATTTTCCTGTGGTTAACAGATATAGGTTGTTTGGCTCCTGGAAGATTCTCAAAATTGAGATTTCAAGCTCAAAAGTGTTTTTGATACACTTTCCAAGCTTCATGATCTTTAATTTACCAGTGGTGTTTTTCCTAGTTAGTGTACTTTAAAGGTCGCATAATGATCGGTAGTACTTAGCTTTGATTTTGCATTCCCGTTCGCTTCTTCTTGTTTTCAGTCTCTGCGTACCAACAATATAGAGATTCTCCTGGCTGTGCAAGAATCACTATATCTATCTATCTATCTATCAGGCCTTAACCTTGCTTTCTTTTCTGATCAATCCTTGTGTTTATGATTGATTAATGAGATTAATTGTATGTTTGCTTCAAATGATTATCTTATATATAGTCTGATTTTCCCTTTCTTTAATCATGTCCATATATGTTTATTCGCCGGGGGGCCGGGAAGGACGAGAGGTACGACTAGCTAGTATTAACTTGTGCAGTTGAAACTGTTTCTCTATGTGCAGAAGATGACTACCATGGAGCTGGTTGATGTTGCAGTGATAGACCACCCATCGGTGAGTTTGTTCTCTCTTCTCCTCAATCCCACTCCCACTCTCCACTCCCCAACCACCACACCCCTTTCTTTCTGTTACTCCTCTATTTCTCTTCTCGTAACCCACGCGCTCTTTTATCTCTCAAATCAAGTCGCTGATTACTAGTCTACTAAAGTTTTCAAATACTCAACCGAATTCCTAATCTTTGTCTCACGCTCACACACATACCAAATCCACACGCGCGTCCCCTACAATTTGTTACGCAAATCAAACCCCGCTCTACACATCCTTGGTGCCCAAGTAAGTGAAATGATGATTTTACATAACAAAAACCACATAATTATTATGCTATGTAACGGTATATTCTATACATTCTCTATCGAGTATTGCACACGAGGGGCTTATGCATACATAAATCCTCACCCCTTTTAAAGGAGAAGGGCAATACAGTGATTTTGGTTGTGCTTGTGAAAATGCAGGAAATAAAAAGGAGGCAGAACTCCGAGGACGCCGATAGAAGGCTTTTTTTGGGCGGACATTGCCTGCATCACCCAACATTTACCACAGCACCACCATTTGGTAATATTTGTAACACACACGCACACACGCCCGAGCAACAAATCTCTCCCTCTTTTTTATCCCTTTTGTTTCCTCTCTCTCTCTCTCTCTCTCTCACTTGATTTCTCTCTTCTGATTTGCTGATTTTTTTTACTGCTCGTACTAGCTAGCTAGCTCTACTCCTATAGCTCACAGTACTGCAAGTACGTAGTACTACTGCAGCTGCTGCTAGTGCTAGTAGTAGCTATGTCGTTTTCCACGCTAAGAGCTCTTGTTTCTGATCAAAATAAGGAATTCTCTGATTACTCTTTGTTTTCCATGCTTAATAATGAAGACCCAGCTGAGCATATTAAAGTGAGCTCTTTTTATGAAGTTGATCACTCCAAGCTGCCTCATAAATCCCCTGATCAACTCAACAAAACCCGGGTTGTGATGGTATTTTTTATACAATTCAACAATATTCTTAAACCCGGCTCAACATTTTTTTCTCTCTGCTTTAAAATTTGTTGGTGTTTGTTTCTGCTTGAATAAATATCTCAGGTGAATGAAAAGACCAGGATGAGAGTCTCGCTGAGGTTTCCAAGCATCAATTCTCTAAGATGTTACTTCAATGAGATTGAAGCTATTAATTACAAGAAAGACATGAAAACGAAGAAGCAGCAGCTACCAGCATTCGACGAGAAATACATTATAGGATCAGAAGTTGCAGGGGAAGCTCTTTATAGGAGAATCTCTTCTCAAGAAATGGCAGACAAGAGTTACTCATGGAGTTTCTGGATGGTTAAACATCCTTCGGTTTCACCTCGAAAAGTGTCATACCCACCTACAAGTACTCATGTTAATAAATTTGTTGGTGCAAGGAAGGTGTCTCTCATGTCTGAGCTCAACGGGACAGGCATGGTTAAGTGGGGTCAGCGCCGGCAGGTCAGGTTCTTGGCTAAACACGTAGAGGATAAACGTGAAATAGTGATTGCATCGAAGGATTTGATTAAAAGCGAAGAAGAGAAAGACAGTGATGGTAGTGATGATGACACAGACGATGAGGACGAGGAGGAGGTCGATGTTAAGTTAGTAGTAAACAAGTCAAGTGAAGCTAAAAGGAAATTACGTAAGAGAAAGTGTCAAGGTGGGTCTGGTATTAGCAAATTATCACCAAAAAAGAAAAGGCGTAAAATTGAAAAGAAGAACCAGATTGTGGTCTATAGGCAAAAGAAGAACAAACTCATCAAGAATTCTATTGACAGATGGTCTGCGGGGAGGTAATAAAGCTTTTATTAGTTAATAAACTAAATTCAGATCGTCATTTGTGTTAATATATTTTTTTGATTAGTGTCTATATGTAGCTAGCTAATTTGGTTGGGTGATTTCTGTGAAGGTATAAATTGGCTGAGGAAAACATGTTAAAGGTAATGAAAGAGCAAAATGCTGTGTTTCGACGCCCAATTTTAAGGCCAGAATTGAGAGCTGAGGCACGGAAGTTGATTGGGGATACTGGGCTGTTAGACCACTTGTTGAAGCATATGTCAGGGAAGGTGGCTCCGGGAGGAGAAGAGAGATTCAGAAGGAGGCATAACGCAGATGGAGCAATGGAGTATTGGCTGGAGAAGGCTGATTTGGTTGATATCAGGAAAGAGGCTGGTGTGCAGGATCCTTATTGGACACCTCCACCTGGGTGGAAACCTGGTGATAATCCTAGTCAGGATCCAGTTTGTGCTAGAGAGATCAAGGAACTCAGAGAAGAAATTGCTAAAATTAAAGGGTACTGGTCCTTCTGTTTTAACTAGGATTGATTGTCTTTCAATTTTGTGTGGTCTTTTAGCTTGTTAGTGCTGTTGATCTGGTAATGCCCACCAGTTTTTCTCTGTTACTCTTGGGGTGAATTGTGTGCGCTACTGATTCCATCTCTCGCGTATGTGTTGTTCTTATGGGGGGCAGGGAGATGGAGGCAATGGTGTCTAAAAAACACGGGGAGGAATTAGCAATGGTGGCAGCACCGAATTATTCTCCTACAAGTCAGGACATGGAGCATGACAACTTCTTAATTCCACTGAAGGTAATAGATATGAAAGTTTGACCAGATTTTTGGACTGACCCAAGTTCTTCTCTTGACAATCCATGTACTATTTTTGCAGGAAATGTACATTGATTTGGTGAATAAGAAGGTAAAGATGGAGGAACAACTAAAGGAAATTTCAGAATCTTTGTATGGGATGAAGGTAGGAGAGCATGAGAATTCTTCCTTTAATAATTATCATTTTCTTTTCAATTGAAGTGTGTAAGATTTGATATGAATGATTCTTTCCACGTTATGACGTTCTGGGTGCTACTAGTGTATATAAGATTCGTTCAAATAAGAAATTCCTGGGTGATTGCATGATCCACATCATTGAAAGATGGTAGTAACAAACTGACCATCTGATGCATGTATCTATTCTAGATAATAAGTTGATGCATAAATTGCCATGAAACCATTTGAGAAGCTGTTATATTTAGAGGCTTGATATGGGAGTGTTGCTTATTCCAGACTAGATTTTTGCAATTATTTAGTTCAATTTAAAGCTCAAAATCCCACATTAAATAGTTTCATAAATGATGAATGTTCTGGCAGTGGATTTCCGTTGTCCTTGGTAGTACTTTCTAATCTGGACAGCATTTATATTGTAACAATGATACGCTTAATGATGATCTTAGGATGAATTGGTTAGTTATGAATTTAGTTGTCCTTACAGTGCAACGGGGAGGCTTGGCTGCATTTATTGTTGTAGCATTTAATTATGCATTGAACGCGGTCATTATTGTGATGATGGAAATATTTAATTGATGCAGGAAGAAATGGAGAAGCTAAAAACCAGAGTGGAGAAATCAAACAGAGCAGAATCAACTGAAAAGCCAGCTTTATTAATGGGCTCAACAGAGTCAATCACGCCAGCAGGAACTGGAAGAAAGGGGAAAGGAGTAATGCATCAGGAAAAAGAAGCAACGGTTTTAGGGGAATCAGCACAAGAACAATGCAAGTCATCATCAGGAGGCATCATAGCACCAAGAACAGAATCACCAGCACCAACGGAGGACAGGGCAGCAAAGATAGAGAGGCTGAAAAGCGGGTTTAGAATATGCAAGCCCCAGGGAAGTTTCCTGTGGCCGGATATGACTACCTTAACCCCTCACCCTCAGGTTGTGGTCCTACTAGAAGACCTCATTGCGGTACAAACACCTCCCTCAGTGTCCTCCACTACACCAAAACAATCTCACTTCCTCTTTGCTCCTCCATCTCAAACCCATACACCCCACCGTACTTTCCCTGTGAAGCCATTAGCTGAGAGAAGGCCTGTCACCATTCCCCAATCCACAGCTGCCACGACTCCAACCAGCTGTCCTCCCCTTGATCAAATGACTCACTCCCAGTATGAGAATAGCAGCATTTCCACTTCTACTACCATCACCACCACTACCAAAACCCCTCTCATCAACCTTAATGAGCCACTGAATACCAATCAAACTGATGATTATGGATTGTTTTATGGGTCTCAGTCTCATGCTGAAGCCTCTCCTCACCCTGTCACTTACCAAAGAAGACATCATCAAAATGTGACCACCAGTATTGCCATGCCAAGTGTATGTGTACTTATCAAATCTCAATTTCAATTCATACCCATATTTTAGTGATACTATCATAGTATACAAGTTGACTCCTTTTTCATTTTCTGTATGTTTTACACAGTTGGGACCCACAAAGAAAGGGATGATGAGCCAATGGGAGGAAGGTGATCGGAGAAAAGGAATGATAAGGTACTGTGAGCAGTGTGAGCAGCAACAGGGATGCTCCTCTGCCTCTTCCATTGCATCTTCTTCCTTGCCAATGGGAAAGGGGACTTGGTTGGCTCTGGCTACTTCTAAGGCTTCCGTGGAGCACAAATCTAAAAGGGGTTAAACAATCTATAATAATAATAGTAGTAGTAATAATGGCTAGTTTATTATGCTAGAGTAGTTATTAGTTAAACCCCTGGAAAAACATTGATTAGGTTGGGTTTCACTTAATGCTTTCCCTGTCTTTGGGCAAGGAATCTTCTTAACATAGTTATATACATATGGCATATACAAGGCACAAAGAGCTTTTAGCGTATAGGAAAA
|
DM462177
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 6,329
|
DM462178.1
|
ATGTCGTTTTCCACGCTAAGAGCTCTTGTTTCTGATCAAAATAAGGAATTCTCTGATTACTCTTTGTTTTCCATGCTTAATAATGAAGACCCAGCTGAGCATATTAAAGTGAGCTCTTTTTATGAAGTTGATCACTCCAAGCTGCCTCATAAATCCCCTGATCAACTCAACAAAACCCGGGTTGTGATGGTGAATGAAAAGACCAGGATGAGAGTCTCGCTGAGGTTTCCAAGCATCAATTCTCTAAGATGTTACTTCAATGAGATTGAAGCTATTAATTACAAGAAAGACATGAAAACGAAGAAGCAGCAGCTACCAGCATTCGACGAGAAATACATTATAGGATCAGAAGTTGCAGGGGAAGCTCTTTATAGGAGAATCTCTTCTCAAGAAATGGCAGACAAGAGTTACTCATGGAGTTTCTGGATGGTTAAACATCCTTCGGTTTCACCTCGAAAAGTGTCATACCCACCTACAAGTACTCATGTTAATAAATTTGTTGGTGCAAGGAAGGTGTCTCTCATGTCTGAGCTCAACGGGACAGGCATGGTTAAGTGGGGTCAGCGCCGGCAGGTCAGGTTCTTGGCTAAACACGTAGAGGATAAACGTGAAATAGTGATTGCATCGAAGGATTTGATTAAAAGCGAAGAAGAGAAAGACAGTGATGGTAGTGATGATGACACAGACGATGAGGACGAGGAGGAGGTCGATGTTAAGTTAGTAGTAAACAAGTCAAGTGAAGCTAAAAGGAAATTACGTAAGAGAAAGTGTCAAGGTGGGTCTGGTATTAGCAAATTATCACCAAAAAAGAAAAGGCGTAAAATTGAAAAGAAGAACCAGATTGTGGTCTATAGGCAAAAGAAGAACAAACTCATCAAGAATTCTATTGACAGATGGTCTGCGGGGAGGTATAAATTGGCTGAGGAAAACATGTTAAAGGTAATGAAAGAGCAAAATGCTGTGTTTCGACGCCCAATTTTAAGGCCAGAATTGAGAGCTGAGGCACGGAAGTTGATTGGGGATACTGGGCTGTTAGACCACTTGTTGAAGCATATGTCAGGGAAGGTGGCTCCGGGAGGAGAAGAGAGATTCAGAAGGAGGCATAACGCAGATGGAGCAATGGAGTATTGGCTGGAGAAGGCTGATTTGGTTGATATCAGGAAAGAGGCTGGTGTGCAGGATCCTTATTGGACACCTCCACCTGGGTGGAAACCTGGTGATAATCCTAGTCAGGATCCAGTTTGTGCTAGAGAGATCAAGGAACTCAGAGAAGAAATTGCTAAAATTAAAGGGGAGATGGAGGCAATGGTGTCTAAAAAACACGGGGAGGAATTAGCAATGGTGGCAGCACCGAATTATTCTCCTACAAGTCAGGACATGGAGCATGACAACTTCTTAATTCCACTGAAGGAAATGTACATTGATTTGGTGAATAAGAAGGTAAAGATGGAGGAACAACTAAAGGAAATTTCAGAATCTTTGTATGGGATGAAGGAAGAAATGGAGAAGCTAAAAACCAGAGTGGAGAAATCAAACAGAGCAGAATCAACTGAAAAGCCAGCTTTATTAATGGGCTCAACAGAGTCAATCACGCCAGCAGGAACTGGAAGAAAGGGGAAAGGAGTAATGCATCAGGAAAAAGAAGCAACGGTTTTAGGGGAATCAGCACAAGAACAATGCAAGTCATCATCAGGAGGCATCATAGCACCAAGAACAGAATCACCAGCACCAACGGAGGACAGGGCAGCAAAGATAGAGAGGCTGAAAAGCGGGTTTAGAATATGCAAGCCCCAGGGAAGTTTCCTGTGGCCGGATATGACTACCTTAACCCCTCACCCTCAGGTTGTGGTCCTACTAGAAGACCTCATTGCGGTACAAACACCTCCCTCAGTGTCCTCCACTACACCAAAACAATCTCACTTCCTCTTTGCTCCTCCATCTCAAACCCATACACCCCACCGTACTTTCCCTGTGAAGCCATTAGCTGAGAGAAGGCCTGTCACCATTCCCCAATCCACAGCTGCCACGACTCCAACCAGCTGTCCTCCCCTTGATCAAATGACTCACTCCCAGTATGAGAATAGCAGCATTTCCACTTCTACTACCATCACCACCACTACCAAAACCCCTCTCATCAACCTTAATGAGCCACTGAATACCAATCAAACTGATGATTATGGATTGTTTTATGGGTCTCAGTCTCATGCTGAAGCCTCTCCTCACCCTGTCACTTACCAAAGAAGACATCATCAAAATGTGACCACCAGTATTGCCATGCCAAGTTTGGGACCCACAAAGAAAGGGATGATGAGCCAATGGGAGGAAGGTGATCGGAGAAAAGGAATGATAAGGTACTGTGAGCAGTGTGAGCAGCAACAGGGATGCTCCTCTGCCTCTTCCATTGCATCTTCTTCCTTGCCAATGGGAAAGGGGACTTGGTTGGCTCTGGCTACTTCTAAGGCTTCCGTGGAGCACAAATCTAAAAGGGGTTAA
|
DM462178
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 2,493
|
DM462179.1
|
GGATCCTGAAGCTCGAAAAACAAAGAAAAAAATCAAAGGGATTCAGCAAGCCACTGCAGGAGTCTCACAAGACACTTCGGAAAATCCTAACAAAACAATAGTTCCTGCAGCATTACCACAGCTCACCCCTACCTTGGTGTCACTGCTGGAGGTGATTGAACCCGAGGTGTTGTATGCAGGATATGATAGCTCTGTTCCAGATTCAGCATGGAGAATTATGACCACACTCAACATGTTAGGTGGGCGTCAAGTGATTGCAGCAGTGAAATGGGCAAAGGCGATACCAGGCTTCAGAAACTTACACCTGGATGACCAAATGACCCTGCTACAGTACTCATGGATGTTTCTCATGGCATTTGCCCTGGGTTGGAGATCATACAGACAATCAAGTGGAAACCTGCTCTGCTTTGCTCCTGATCTGATTATTAATGAGCAGAGAATGTCTCTACCCTGCATGTATGACCAATGTAAACACATGCTGTTTGTCTCCTCTGAATTACAAAGATTGCAGGTATCCTATGAAGAGTATCTCTGTATGAAAACCTTACTGCTTCTCTCCTCAGTTCCTAAGGAAGGTCTGAAGAGCCAAGAGTTATTTGATGAGATTCGAATGACTTATATCAAAGAGCTAGGAAAAGCCATCGTCAAAAGGGAAGGGAACTCCAGTCAGAACTGGCAACGGTTTTACCAACTGACAAAGCTTCTGGACTCCATGCATGAGGTGGTTGAGAATCTCCTTACCTACTGCTTCCAGACATTTTTGGATAAGACCATGAGTATTGAATTCCCAGAGATGTTAGCTGAAATCATCACTAATCAGATACCAAAATATTCAAATGGAAATATCAAAAAGCTTCTGTTTCATCAAAAATGACTGACCTAGTTCTAGAGCGGCCGCCACCGCGGTGGAGCTC
|
DM462179
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 914
|
DM462180.1
|
GTCGACTTTTTGTTTGACCAGTGTATTTGGTTTGACTTCAGATTTGGCAAGTACGAAGCTTATGCGCTTTTGCAATCGAAACAAGGGAAAAATCTGTACTTTGTTAGCTGCGTGACTTGAGCTCTTTGGTCCGGAGACGGTAGAAGACGACAAAGCACTGACCTTTCATCTCTCGGCGATCGAAAAAATCACTCTCTTTCCTCATCAGACCCGACCCGTTATGAAGGTATCCAGACCCGTTTATTTTGATCCATCTCATAGTCGGATCCCCAAAAAAATTCAGCTTAGATTGGCCCATTTAGGCCCGTTTACAGTTTTTTACTTTTTTCTTAATTATCTTTTTAACATCTTACATTATACATATTTGACTCAACAAAAAAATATAACTTAAATGTATTGTTGACTGTTTTTGATAATTAAGAAAAAAATATTTTTAAATTATTAAAAATATTGTTGACTCAACAAAAAAATATAACTTAAATGTATTGGGCAAATAATCATGGTCATAAGTCCTCAAGCTTATTATTTGTTTTGATTGGTTTAAATACTTTATAAAAAAAATATCAATTATATCATGTTATTACGTAAATTAAGCTTTTTGATTTTAAAAAAGCTTCAGCTCAATAAAGAAAAACAGATTCAGTTATCATTGGAGTATAAAATTGGTCGATACATTAGAGACATTAATCCTTACATCATAAACAATTTAATGTGAATAAAACATCATAAATCACATATCATTATCCGAAAATAATCATATGTAAGAATAATCACTGTGACAAAAAAAAAAAACAATTCCTCACGTGTGTAGTCGGTCCCCACTCTAGTAGCAGTAGCTTAATGATGCCTTCTCCGCACGTGTAACACGAAATTTATTCGCTACGGCCAATTACATTAACCTTCAGGTCTTATCACCGTTAAATTTTCAAAATGACACACGTGGCATCAATCCGTAATATCACTACGTCTGCTTTCAATCTTTCATTGTAGATGATTTCGTACACCAATTTCCGCGAACGTTTACAGTTTAGATACAGTTTGAGGGCAAATCTGTCAATATACGCCAACTTGCTGCGAAAGCAATATAGTCACGTGCCGTGCACACGCATATAAGACTCACACACTCACACCACTCTCTCTCTCTCTCTAACCTCATATATAAAGCCACCTCCCAGATTCATTAAATGCGACATTTCAAAACTTTTCTTTTTGCTGTCTTCCCCATAAGCTCTCTGCTGATTAAAAAGATTTTCTGGTATAAAACAAAATTCTTCAAATATTTCTGGGTTTATGTTTTCTCTCTATTTCTCAGAAATGCTTTAATTTCTCCATCCGCGTCCATGTTTTTTTTTCTCCGTTGCTGATTTTGATTTTTTTAATCCAGTGAAAAGGAGGAACGAAGATTATCGAGAGCAAAAATCATGAGTGTAAGATCTCTCTCGCTCTCAGATTTTATTTTTTTTCGCTGTGATATAAATGGCTCAGTCACTATCAGTCTCATGATGAGAAAAATAAAACTCATCACCGCTTGATTCTGTTTCCTTAGTGTCTCCCACGCGCGTACCAGAAAGCGCGTGTGTGTTTCTTGTTATACTCGCAGAGTCAGGTTTTTTCAAATATATTCTCTCCAGGCAGCAGCAACAACAACAAACCGATTTTTTCATTATTCCTTATAACAATTTTTGATTCTCCAGAAAAAAAATATCTCTCTTAGTTTTTCTCTTGTTCTACAGAGTACGATGTTCGTGAAACGGAATCCGATTAGAGAAACCACCGCCGGGAAAATCTCTTCGCCGTCGTCACCGACTTTGAATGGTAAACTACTGAAGCTATAGTTTCTTCGTTTTTGTTGATTTTCTCGCTTCTCTTCTAATTTCTGAATTTTTGGTTTGGGTTTGTTCTTACAGTTGCAGTCGCGCATATAAGAGCTGGATCTTATTACGAAATCGATGCTTCGATTCTTCCTCAGAGATCGCCGGAAAATCTTAAATCGATTAGAGTCGTCATGGTATTCACTCGATTCTCTGCTTTTTTCACCTTTTATTATAGACAGATCTCGTTTTTTGTTGTTCGTCTGGGTTTTCGAGTGATTTTTTAAGGTTTATTGATGCAGGTGAGCAAAATCACGGCGAGTGACGTGTCTCTCCGGTACCCAAGCATGTTTTCACTCCGATCGCATTTCGATTACAGTAGGATGAACCGGAATAAACCGATGAAGAAGAGGAGTGGTGGTGGTCTTCTTCCTGTTTTCGACGAGAGTCATGTGATGGCTTCGGAGCTAGCTGGAGACTTGCTTTACAGAAGAATCGCACCTCATGAACTTTCTATGAATAGAAATTCCTGGGGTTTCTGGGTTTCTAGTTCTTCTCGCAGGAACAAATTTCCAAGAAGGGAGGTGGTTTCTCAACCGGCGTACAATACTCGTCTCTGTCGCGCTGCTTCACCGGAGGGAAAGTGCTCGTCTGAGCTGAAATCGGGAGGGATGATCAAGTGGGGAAGGAGATTGCGTGTGCAGTATCAGAGTCGGCATATTGATACTAGGAAGAATAAGGAAGGTGAGGAGAGTTCTAGAGTGAAGGATGAAGTTTACAAAGAAGAAGAGATGGAGAAAGAAGAGGATGATGATGATGGGAATGAAATAGGAGGCACTAAACAAGAGGCAAAGGAGATAACTAATGGAAATCGTAAGAGAAAGCTGATTGAATCAAGTACTGAGAGACTCGCTCAGAAAGCTAAGGTTTATGATCAGAAGAAGGAAACTCAAATTGTGGTTTATAAGAGGAAATCAGAGAGGAAGTTCATTGATAGATGGTCTGTTGAGAGGTAAAATGCATAAAAATTAACGAATTTTATGATCTCTGAATTTGGATTTTCCTTGGTTCTATTGATTGATTGTGGTTAATTTTGAAGGTACAAACTAGCTGAGAGGAACATGTTAAAAGTGATGAAGGAGAAGAATGCAGTGTTTGGCAACTCCATACTCAGGCCAGAGTTGAGGTCAGAAGCAAGGAAGCTGATTGGTGACACAGGTCTATTGGATCATCTGCTTAAGCACATGGCTGGTAAGGTGGCTCCTGGAGGTCAAGATAGGTTTATGAGAAAGCACAATGCAGATGGGGCAATGGAGTATTGGTTGGAGAGTTCTGATTTGATTCACATAAGGAAAGAAGCAGGAGTTAAAGATCCTTACTGGACTCCTCCACCTGGTTGGAAGCTTGGTGACAACCCTTCTCAAGATCCTGTCTGCGCTGGAGAAATCCGTGACATCAGAGAAGAATTAGCTAGCCTGAAAAGGTAGAAAAGTTATTGAATTGGTTATACGATCATCTCCCTTTAGTTGTCTTATTGCAATTTTAACTCATGTCTGTCTTGGTCTTGAGAAGAGAATTGAAGAAACTTGCGTCAAAGAAGGAAGAGGAGGAGCTTGTTATCATGACTACGCCTAATTCTTGTGTTACTAGTCAGAATGATAATCTGATGACTCCAGCAAAGGTAAGAGCTCGAAACAATAGCTGAGGCCTCTCTCTTGTGAAAATGTTTTATGCTACTTTGTGAACATCTCTGCTGCTTTTTCTTAGGAAATCTACGCTGATCTGCTGAAAAAGAAATACAAAATTGAGGACCAGCTAGTGATTATTGGAGAAACCTTGCGTAAAATGGAGGTATGTATATCCCTAGATTGAGTTTCCAAGTAGACACAAACCCTTACTTAAAATGTAAAATCTTGATTTAGTAACTATCACAAGTAGTCATAGGAAACTCCCTTGGAGGATAACAGTGAACCATGTAAAATGGGCCCATTTAGCGTATGTGATAAATGATTTCCTCTGTCTCTATGAGAGACCACTTTGCTGATAGTCGAATAATGATGAAACATTTGTGTTACTATAAATGCAAATATTGCAGGAAGACATGGGATGGCTTAAGAAAACAGTGGACGAGAACTATCCTAAAAAGCCAGACTCAACAGAGACACCTTTGCTACTAGAGGATTCACCACCAATACAGACACTAGAAGGAGAAGTGAAGGTGGTGAACAAGGGTAACCAAATCACAGAGTCACCTCAAAACAGAGAAAAAGGAAGGAAGCATGATCAACAAGAAAGATCACCACTTTCACTAATAAGCAACACTGGTTTCAGAATCTGCAGGCCTGTGGGGATGTTCGCATGGCCCCAATTGCCTGCTCTTGCTGCTGCTACTGATACTAATGCTTCTTCGCCAAGTCACAGACAAGCCTACCCATCCCCTTTTCCAGTCAAGCCACTTGCAGCTAAGCGTCCTCTTGGCTTGACGTTTCCCTTCACCATCATACCCGAAGAAGCTCCCAAGAATCTCTTCAACGTTTGAAGTTGTCACTGGAAACTGATGCATCAGATCTTACTTTCCCTACAAGTAAGCTGATGTGAACTGGTAAGGTCTCTTCCATGAAATATATAATAACTTACAAGCGAGCAGGTATTTAAAAGTACCACTTATATTTATATAAGGAACTATATTTATGGGAATAATTTGGCAACTTTTTGAAATTATTCCTCTTTAATTTAGGGATTTTACGTCTCTGGTTATTAATTATATATAGAGAGAGATGATTTGAAATAGAGAGGCTTATCATAGGAATATATTCTTTTGAAAGACAGGGATCATCATATTCTGTATTACTGAACAATTTCTATAATGATACAGTTATATATATATATATATACTTATTATTCAATTCCTAGCGCTTTTGATTTTAAATATATTATTTTCGTGTAGTTGATTAATTTTGAAAAACTTGTATTACGCATATGAATTATGTCCCGTTGATCTATAAAAATCATATTTTGCGATTAAGCACAAACTATAAAAGTATGTTTAAGTTCCTGCGGGTTGACCAGTTTCACTTTAAAATCTTGGTCTTTGGGATGAGTTTGCCGATAAATTTTGTGACTTATGGTTATCTAATAATACGAATGTTATACTTTCCAAAATTTGAAAAAAACAATATGAATACTTTATTATTATCTTTTTCCTTCCATTTCTCTTCCCGCGTTTTGTTGTTCGACCGATCTTGTAGTACATGTGTTCTAATTTGAACGTCGAGAACCATTAAAGAAGGAAGAAAGAAAAGAAAAAAAAAAACTTTTTTCTCATTTCGAGATTTCCTAACCATTTGGTGGTGCAGGTTTAAGTTTCGCTCGCTCTCCTAAAACCAAACGTCCAAACCCGTTCTCTAGACTAGTTCTGCTGCGAAACACGACACACACCAAGTCACCAATATTACTTGAATCCACGTCAAATAAACAATGGTCATTCAATATGGTTAATGCAACACTCGAGTAACTTTATTTTCAAAGAAATTTGCACAAAGTCATGTTATGATATGGTGTATAATATTTGTGTATATATCCGGCCAAAAAACATAACAAGTTTTTTATAAAAAAAAAAATTAATTATATATCTAAAATATAGAATAGCTAGTAATAAAACTAGTGAGAAACAAATTTAAAACAAATTAAGCAACTATGTTATTTGCCAAATTGACAATTTTAAATATTATGGCGTATTTAAAAAAAATTAGGAGCCACTTGTGATTTATTTGTATCAACTAGTAAATTTTAAACATAAAAATCATTTATAAATATAAATAAATATTATCATATTTATGTAGAAAGAGTCTCATCAGTCTGATAGTCAATCACTTGTGCGCAAAGAAATTTGACGAAAGGGGTTACAAAAAAATGGCCAGCACAGCATCATCATGTCCCCGACCTTATATTATAAGATTTGTATATTTTATCCATAAATTGTATATAACCGTCGAC
|
DM462180
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 5,807
|
DM462181.1
|
GACATGATTTAACATAATGCCAATTA
|
DM462181
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 26
|
DM462182.1
|
CGAATAGAAACTCATTTAGGAACCT
|
DM462182
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 25
|
DM462183.1
|
CGTCTCTAAGTTGTTTAAGGGGTTA
|
DM462183
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 25
|
DM462184.1
|
TCACGCAAGTTAATTATGTAAGATGA
|
DM462184
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 26
|
DM462185.1
|
AAAGAGAGTAGAACTCGCTCAATGT
|
DM462185
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 25
|
DM462186.1
|
TATCAACAGCTCGTTACTGGACTG
|
DM462186
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 24
|
DM462187.1
|
CATGAGGTGCGATTCTTCTGTAAAGC
|
DM462187
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 26
|
DM462188.1
|
GGAAGAGGAGGAGCTTGTTATCATGAC
|
DM462188
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 27
|
DM462189.1
|
TCCGCGAACGTTTACAGTTTAGATACAG
|
DM462189
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 28
|
DM462190.1
|
GAACCGAAACCGGCGGTAAGG
|
DM462190
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 21
|
DM462191.1
|
CGGGATCCGATCTGATGCATCAGTTTCAGGTG
|
DM462191
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 32
|
DM462192.1
|
CGGGATCCGAGCAAAAATCATGAGCGTAAGAT
|
DM462192
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 32
|
DM462193.1
|
AGTACGATGCTCGCGAAACGGAATC
|
DM462193
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 25
|
DM462194.1
|
AAAACTGCAGGGATCCCCAACGTTGAAGAGATTCTTGGGAGC
|
DM462194
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 42
|
DM462195.1
|
CCAAATCACAGAGTCACCTCAAAACAG
|
DM462195
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 27
|
DM462196.1
|
GTAAAACCGTTGCCAGTTCTGACTG
|
DM462196
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 25
|
DM462197.1
|
CGTTCCGTTTTCGTTTTTTACC
|
DM462197
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 22
|
DM462198.1
|
AATGCACCCGAAAGTCTATTTGC
|
DM462198
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 23
|
DM462199.1
|
ACGGATCCTAGAACAAGAGAAAAACTAAGAGAGATATTT
|
DM462199
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 39
|
DM462200.1
|
TCTGGGGCTCGTCGACTTTTTGTT
|
DM462200
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 24
|
DM462201.1
|
GCCAACGCTATGTCCTGATAG
|
DM462201
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 21
|
DM462202.1
|
GATTGAACAAGATGGATTGCAC
|
DM462202
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 22
|
DM462203.1
|
GTAGAGATGGCAATGGGTACCCGAAACCCGAATACCCGACGGGTTTTCCCCGATATGAAGGCGGGTACGGGATGATTTCTCTACCCGCGGGTATGTTAATGGGTAAAAAACTCTACCCGTTGGGTAGACGGGTACGGATATGGGTTGGTACGTCTATCCGTGGGTAAAATATACCCGCATCAATAACACTATAAACATCTAATAGAGTCCAACTTAGCTAGAATAAAATCCTTCTCTAGTTATCATTTATCTAGATACCAAGTTATGTAATCATATGATTTGTTATATGTGAAATTGAAGTTGTTTTTATATGTTTATTTAATATTTTGAGTGATTGGTATATTGGAATTTAATTCTTTCCGAGCGGGTACGGGTTACCCGATGGGTAAAAATACCCGCGCGGATACGGGTATGGGTAAGATTTTATACCCGCGAGCATATATGGGTAACCTGACGGGTAGATTTTTTTTTGATGGGTACGGGTATAGAATGGTACTACCCGACGGGTATGTACCCGTTGCCATCCCTAGACACGAGCATGCTACGGAAGGAGCGGTGGGAGGTCTTAGGCTGGTGCCAATGGGGGCTAGAAGGGAGGCGAGAAGGGCCCTCTACCGCCCCGCGCGAGGCGATAGGCAGGCGAGAGGGAGAGAGAGGGCGACAGCACTCACGCCCGGCGAGAGCGGGCGATATCGCCCCGCTCTCGCCCGCGTTGGCGCGCGCGTCTGGGCGAGAGGGAGGCGAGAGGGAGGCGAGAGGGGGGCGACGCACTGACGGGGCGAGAGTGAGGCGGGCGAGAGTGCGGTGGCGCGACGTGATTGGTCCACGTGTGCCACGTGGACTAGCCGTTTTTTACCGTTTGGAGTCCAAAAAATTCGAAAAAATTGCAAAAAATCACAAATTTCATTCCCAATCCATCTATAAATATCCCTACCTGTTGGAGGTCATAATTAGATTTATGTAATTTTCTATTAATTGTTATGTAATTTTTTAATTGTCATGTACTTTTCTTTTAATTATTATACACTTTGTAATTTTAAATTCAATAAAAAATATTATGTTGTGTGATTTGTAAGCGTTGAAACAAATCTGTGTGAATTATTTAATCCTGAAATAGAAAAGCTGATGTGGCTATGGGCTGAGGCTATAGCCTGCTACAGCCTGTGCACTGGAGCAGCAGAGGCGAGAGTGGAGGCGAGAGCTGACGTGGCAGGGGCGAGAGAGAGGCTGTGCACTGGACTCAGCCTAACTGCAACTGGACTTGCACTGCTGGAGCGAGAAGGAAGGCGACGCACCAACCAACCGGTACAGCGCTGCGAGAACAAGTGAACAACCAAACGCACCAGGCGGGGGTCTCCGTCTCTATAGTTGGGATTTGGGAACAGTTCCGTCACTGTGTGTTACTGTTACCGCAGTGAAAGACTGATGGGCTCTTGGGTCGGTGGATCCTGTACGAAAGACTGATGGGCTCTTGACTGCCAAGTCAGCATATGTTGCACAATTTTGAGGATCTTTTTTGTCCTTTTAATGCATCAACCATTTGGAGCCCTCATGCGGAGGGAAAGCAGGAATTCTTCACTGGCTGCTCATTCAAAAACAAGATTCTAACAGCTGACAACCTTACCTGGAGGCATTGGCCCTGCAACCCGGTCTGCACTCTATGCAATCAGGATTGGGAAGACAGCTATACATCTATGCTTCAAATGTCCTTTTGCCTCACATGTTTGGGATTCTTTAAGAATCTGGTCCAATAATCTCATTCAACATCCTAGCACTAGCAGCGACGTCCAAAGCATTGTTGACTGGTGGCTGCGATCTTCTATGCATAGAACCAAAAGCATCCACAGAACGGTGGCAGGGATTAAAATCTGAGTGAGGTCCCAGCTTAGATCTCAATCTATCTTGCTGTTGTGCGGCTGCGCCTTGTAAATAGCTCCTGTAACCTTCCCTCTGTACGACTCAATCTCCTTTCATTCTTATATGAATTAGCAGTGCTCCTGCTACTTTTTTCAAAAAAAAATCACCAGCATCAAGAACATACAGATTGTAAGGGGAAATTAAATATCACCAATATATATATGCCCGAAAAAATTGGTCACACTTAATATGTAGTGCAGCAGGCATACAAGAATGACCCGGTATATTCTATAACATGACTCTATATGCCCTATGGTGCCAGCAAAATCGACACATCTCAACTCCAAATGTGTCATGCACCATGGACAGGGGAGAATGGGAGATGACCATACCCAACTGACTTACTGAAGAGACCAATCCAATGCAACGACTTTAGCTTCAACCTGAGAATTAACTAGAAACTGACGAACCTGAGATGGCTACGGAAGTACGATTATGCCACAAAGACTGCTCAAGTGAGTTCATATTCCCTTTTTCTTATCTTTTTTCTCTCTCTCTTTTTTTCTCTCTCTCTCTGTATTTACGCTACGTGTTGCTCCTTTGTTACAAAGACAGAAAATTGGAGCACCCTGAGGCCAACCATCCAAAGCTTTGCTTGCAGATGGGGAAGAGGCGATGATCCTGAAGTGGAAAGGTAGGAGTAGGTCAGCAGTAGGATGGAGTAGCCAGGGCCAGCTCGGTTCCCACCGCGCTGATCCCGCCGGCGTCTGCATCGAACAGGACCCTCTTCCCCTCTAGCAGGCCGGAACCGCAGGCCCCGGACGATGACGACGAGGTGTCCTGCACAGCCCACGATCAGTCGAACATGAATCAGCTTGCACGTTTCTTGACTGGTTATGGTTAGCTAGTAGCCTAGTACTAATGCTTGCCGACAGCAATGGAACAGCAGGCCAGAGTCCAGACTATAGAACCAGAGGATAAAGAGAAAGCAAGCAAAGTGGACTTACCACATCGCGTCGAGTCAGGCCGGAGAAATGCATCAGCTTTTGGGGACTAAACCCAGAAGCAGCAGCAGTAACAGTGTCAAACAGCTTCTGCGGCTGCAGGGGCGACCTCGGGCTGGGCAGGGACAGCTGCAGCTTGGCAGCGTCGTTGGTGGACGACGCCGAGGGCGGCGTAGAGAAGTGGGCGCCAAACATCACGTGCTCGTCCAGGCCGGACGCCGCCGCCACCACCTCAACTGGGCCTCGCGACGACCGCGGGAGGCCCGGCATACTGGGGAAACTGGTGCTGCGAGGGATCCCCGGGCCTGGCGTGGCGGCGGCCGGGCAGGTGCTGCTGGCGCCCCTGCCGATGGTCATGCCAGACGCCATGCTCGGCAACAGGAACTTGCCCTGTGGCTTACAGACGCGGAAGCTGCTCTTCCTTTCCGCCCTGTCTTGGCCGCCTTGGATGACGGTGCCGGTCATCTGCTCACCGGAAGCAACGAACAGTGCTGTGCGGGGAACAGCTTCACTTGGAGCCAGTTCCAGCTTCAGAGCCACTACCAGCTGATCCTGCACCACTCAATTCTGTTTACTTCAACTCATGGAAGATGTCAGATGTACATTTGCATAGGCTGAGAAAAATCAATAAAAAGAGTGCATTGCCATACAAGGAGCTACCTTGAAAGAAAGGAAGGAGCTGGAGAGGTAGGTAACCTGCTCCTCTAACTTATCATTCTTGTCAGCTATATGCTCGTACTTTTCCTGAAATTAAACAGTGGTTCACTAACTGTATTTGGAGTTACACGGATCTAGCAGGCAAAATGTGCATAGGAATAGATGCTACAGATAAAAAAGATCATTGTGAATGTCATAGCTGTCTCCTGTCTGCATGAATGTACCTTGAAGGATGACACCTCCTTCTTCAGCTCACCATTCATCTGAACCACATTCTCACACATGTCCTGAAAATAAAAGGCAATATCATTTCTGAAAATTCAGCAAGCAGACTTAGCAAAGACATAGCTTTTTATTTTGCAAGGATATCGAAGTCATAGCTTCCCTGTAAATTTAATAAGTGAAGACAAATCAATAACGGGCATGGTTTCTCAGTTCTCATTTTGTTTGAAATTACTGAAGCCAAATTAGTAACAGGCATAGTTTCTCGGTTGTCATTTAGTTTGAAACTAACTACCACATTTTTCCTAGCAGACAATGTTGCTGCATCCATGCGCTTACCTTCAAACAGAGCACCTGCTTCTCAAGCTTTTCATTAGCCCTCACAGCACGCTGGTACTTCTCCTGACAAACAAATTGATAAGCTTTCATTAGTGCATCCAAAATGGGCATGCCAAATAGTTTCTATCAGTTAGTATAGTCAATGTGAGAAGTAAAACAGAGAAACTGTAGTTCATGCTAGTCAGATCATGCACATCAGTACATCCTGGATTCAGAATTTCAGAGACTGGACAAGGAACTAGCTATGTTCTTACAGACAGCAAGCATTATGAAACATCAGAGAAACTGAACCGGGAGTCCAGGACTGGCATTCTATTCTAGCACTTCAAAAAACCTCCCGTCAACATACGAAATGATGTACATGACTTGCACAACCCAACCCAACATACAGAAACATGGAAAATGCTCTAATGCCTATGATTTTCCAAAATAAAGAGAGGTGCAAATACATATCCAAGTATACAGAAATATCCACATCAGTGCCACTACCATATCTTGCTCAGTTTAATCAGAAGCAGCAGCCTTCAAAAGTTAAGGGAACAACGAATTGTAACAGGGTAAAGGAGCTGATCTTTTGCATACTTTCAATGAACTGTAGTCTCTCTCTGCACCGAAGTCCCCATCATCCTTGCACAATAACTGCTCCATTTGCCTTCACACACCACCACAAGAATAACTTGGCATAAAACTCAGAAGAAACCCCTTGTCTATGTAAGAACTTAGCAGGGTCGTAGCACTGATGGCTTGAATTGCCATAAAACTATATATTATAGAGTGCAGACAGACAAAAGGAGTAGAAAAAGATATACCTTTTTACGCCATTGACCTCCTCGGTGAGCTCCTCAACCTGCCTCTTGACTAGAATGTCGCCGGCGACGAGGGACACATCATCACCTGGTTTCCATCCCGGCGGTGGCACCCAGTATGGATCAGATACACCGGCCTGTTTCCGTACCTCAGCAAGCTCGGCTGGCTCAAGCCAGTACTCCATGGCACCATCCGCATTGTGCCGGCGACGAAACCGGTGAACGCTGCCTTCCGGCACCCGGCCAGCCATGTGCTTGAGCAGGTGGTCAAGGAGGCCGGTGTCGCCGATGTGCTTGCGGGCTTCCTCCCGCAGCACCTGCCGCATCACCGGTGCGCCGAACCGTGCGTCTCGGGAGCGCATGATGTTGAGCAGGCTCTTCTCTGCTGCGGCGTAGCGCTCGGCTGACCACCGGTCCTTGCCGTGCCCGAGGGTCACCGTCCTTGGATTC
|
DM462203
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 5,335
|
DM462204.1
|
GCGCGCGGCGTGGTTGCTGCTCATGACGAAGCGCTCGTCTAGTTCCGGTCCGGTGCCGGGTGCCGGGTAGGAGGAGAAGAAGCTGCGCAGCGCCTGAAGGGACGGGAATTTCACTGTGATGTCCAGGTTCGTGCACTCGCTCACCTAGGTACAGGCCAGAACTTGCTCAAACATATGCTAAACAAACAGATTAAGAAATTGAGAGCAGAAATTGAATCCCAGAAAGAAAAATCTCACCTTAACCACCCGTATGGATTTCAGATGGATTGGGGATTTAGGGGGCAATTTATCGTGGTCGATCTCGTAGAAAGCTCCTGATGGAAATCGAACCAATTTACACAAGTGTCAGATACTCAGGTGGGCGTGGCATGAATAATAGTAGTGTTACCGTGTTGCATCGTATATGCCCGTGCTCACCAGCGTGGTATGTGGGGATGGCGTCGAAGGTCAGGCTCTGTCTGCTCAGGGGCGACCTGGGTTGAATCGTGGAGTCGTGGTTGACATCATCCTTACCATTTCTGCTATGACTACTGCTCGTCTTCTTCTTGAAGTAGTACTTCTTCACCTGTGGCTTCTTGTGATTTGCAATGGTCACACAAACAACGGGTGAGACCGAGACGTGTATGATTCTTGGAAACAAAATTATACACTGAAATGGTCAAGTTTTTTTGGAGATTGAGAGCGCGTGCATGTGCATGGGAGAACTAGTCTCGGGAAAGACAGACAACAGTCAACATAATGTACCACTGGACCAACAGAAATGAAAAGAGACATGCAAAGGGAACATACAGGTACTTTTTAACATGAAGACTGCCGGTTCGTTACCATAAATAATCATCACCTATCCTAAAATGGGTTAACAAAAATAACGAACGGCTTAACAATTAATAAATATTTATTAAGTCATTTAAGGTGAATGATCATTATCTTGGGTAACAAATAGTGTTGTCTATATATACACACAAATTAAAATTGAGGTGTATATATATATATATAGCCCAAAGACAAAGTCAACTTGAAATGTTCAACGATAATGGCAAGTGGACTACAGTATACAAAGGGACAAATTGTATAGCTATCTAGGACCTTTTTAAAAAAATAAATAAAAAGCAAGCACTATAACCATGCTAATTATAGTGCGTGGGTTGATTCAAAACAACCCAACATCACGTCTTCGTGAAAAAAAAAGAATAATAACACTGATCCAGCTAGTGGCACGAATGTCTAGAGTTCAATTGCACAAAGAATCCCAAATAAACAAAAGAGAGAGAGAAAAAGATGCATTATCCATTGTCTGTAGAAATTAGCACATAAAACTCAACATGCCTAGGGTGTTTAATTAGTTTAACAACAATGAACCTGTTTGGAAACACCATAGTTTTTTTTAAAAATGTTTTCTATATTCAGTTTGTAGAATGAAACTGGTTTGTAAAAAAAACTAAGTGTGCATGTTTGGAAGCCAGTTTTTTTAAAAACAATTTCTACCATTTCTGATACACAGAGTAATTGATTATATTATCCCCTTTTTATTTGTTGCCATATATAAATAATATAGGTTAAACTCATATTTTTAATTCAAAATTTTCAAATAATTAACCATTCAAATCCGATAGAGCAGACATCGAGATGATCGCATGCATAGGTCTGGAGCGGTGGCAATCACCATAATTTCCACAAAACCAACTAAGAACAGTACGAAATTTGCGAGGCAAAAAACCGGTTTTAAATAGAAAAGGCTAGCTTCCTGGTTTATTAGAAGCTGGGAATCCAGTTTTTTGAAACTGGAGCAAAAAAATTGGCATGTTTGAAAGCACCCTAGTTTCTATAATCTATTTTTTCAAAGCTGGGTGTGCTTCCAAACAGACCCTATTAATTGTTACTCCCTCCGTTTCGTTTTAGTTGTCGCTGGATAGTACAAAATTGAACTATCCAGCGACAACTAAAAAGAAACGGATGGAGTATTCTTTTAACAGCCATGTTCCCTCATCAGCTACCAATGCACGTATAATTAACTGAACAAACTAGTAGTACGTTGTACTGTCCTCTAGTAGAGTCCATATATAGGCAACACTATAGAAAGTACACTATTCCAAATCAAGCAACGGTTCAGCAATTTTCAAAATGCCGCACTTAATGTGCTCAGCAGATTTTAACAAGGCTCACGTTGGAGAAATGACCATGCCTTGCTGTTTTCACACTAACTATTTTTGTCAACCTATATATAGCATTCATGCACTTGTATTAAAATAAGCAAGATCAGTCTAACAAGTTGAACCCATCAGCGGCTCTTGAGTCCAGATAACTACCACGGACAATAAACTACTTGCGAGAGCATCAAATCAAAGGATATATCGACTACAGTACATCTCAGTAACTATACATCTCAAATTAAACATCGATCCAGCGAAATATCGAATTAATCACCCAAAAAGCAACTAATAAAGCGGCGCACAATATCCTATATCATTGTAACTGACCGCGCGCAGCCGCAGCAGTAGGTCAGTGGAAAGAGAAACCAACAGATCACCACCATACCCAGATCACAGAAAGCAAAAGGTAATAATCGAACTGGCAAAAGTCGCAGCTAGCGTCTACGACGTGTAGCAAGACCGGACTGGCCCGACACGTACGTACCGGCGATGCCTGCAGCTGCAGATGAGCCGCGAGCGCAGGACCCGCCTGCACCGTCTCTACGTCCATCTGCATGCGGGTCCTCAGAGTTTTTTTTGGGTCTCCTGCAAAAGCAAACGGGCAAACAAACCCACCGATCAAGACAAGTATATATATATAGTTCAAAAAGAGTTAAGCAAGAAGGACAGAGACCCTTCGATGATCGAAATGATAACAAATTTTCGAAACCCATCCAAATTGACCCGCATATAGATGAACTAATAATAATGCGCACTGGCATTTTCCGACCAAACTGGCGAGATTTATAAATTGTAAGTTCGAAGAAAAAACATTCAAAACTCTAGTTCCCAAACCAAAGCACCAAAAGGCAGGCAACAAAAGTCACCAAACTGAGTCTGAGGTTGAACGCTTCAAGGGGAAAAGAGAGCGCGCCTCATCTCGTCTCGTCTAGCAGCAGCGCGTTATGTGGCAAAAGTCGCTTGTACGAAGAACCTGCAAGCTGCTTTCTGCTGCTAGCGGCAAGCCGCAACCGCACGGATCGATCGAAGCAAAAGCAAGCGAGGCCCGAGGAAACAGCGACAAGGCAGCAGAGATCGGAAAGGAAAAACGAGCTGCTTTTGCGATCGAAGTATAGAACCAGCGAGCTTTTTGGCACTGCCGCGGAATCGCGCAGCGCGGTAGGAAGTGGTCCGCGTGCGCGGCTTCCTCGTGCCCGGAGCCTCTCTAGCAAAAAACCCAACAGCATCAGACACCTATAGCAGCAGTGCAGTACACCCGTACAACAGTTCGTTTTGATCAAGCGGGTTTTAGGTCACGCCCTTTTCGCATCAAATTGAGAGAAGGGAACGAACCAGATGGAGAAAAATGGCCCGGATCAGAACGAAGAAGAATGAGAGACCGGATGAACACACACTGCTACCAGCAGGGCGCGGTTAGAAATAGATCGCAGAAGAATACCCACGACGCATACATATGCCAGAGCAATTAGGCCACTACTCACCTGTGTGGTATTTACTTGCTGCTGCTGCTGCTTCTGGGATCGGGGTGGGATCGAATCAAAAAGAAAAGTAGAGGCAGGCCGAAATGTGGCGAGAAAATTGGGTCGCTAGACAATTCTAGTGGAGTGCTTATTCTCTGATCGATGTACCTGGGGACGATCGATCCCGAAAGGCGGGGGGAGCTTTGGGGAGGCGATCGAGCTAGTTCATGGTGGGGAGTAGTGGAGTGGAGGCAGGCGCCGTGGGTCGGGAGGTGGGGCGCTAGGGTTTTTGTTGTTCCGTGATCGATCGGCGTCGGGGGGCTGGGGCTCCGCCTCTTCTCCCCCGGCTGCCTCACCTCGTTGATCACCGTGTCCGCCTCGTCGTGCGGGGAGCCGGGGACTAGATAGTGCCGTGGAGGAGAATCCTTTTTCTAGAGAGAGGAGTGGGGTGGCAGGGTGCAGCGCGTGTGTGATGCTGATGCCGTTGTAGAGAGAGAAAAATCTAGGACAGCCAGGCTCGTCGCAGAGGGCAGCAAGCAGCAACCTCCTCACGGAACGGCCCGCACCTGGTCTGCCGGGGGATCGAGCCTATGACACGTGGGCCCGCTCTGCCCGCGGACCAGACGTGTCTGCAGGCAGCCCGGCACGGCAGACGGGTGGGTGTTGTGCGGGCGACGACGATATATGCGGTGCCCAAGTAGCGGTGGCGAAGCGCGCGAGACCTTGTGGACCCCATCTGTCGGGCGAGAGCGCGCGGCGCACCATTACAAGGACGACGCTTGCGAAACGATGGCGCGGGCGCGCCGGCACACGCGCATGGGGGAGTTTGGGTTGACATTGTGGCACTTGGGATCGGGGCGGGGTCCGCCGGGGGCTGTGATGATGATGAGGCGGAGGCGGGCGGAGCAAAGCAGAGAAGAAACCAATTGCTTGCAGTTGCAGGCACAGGCCGTACTAATAAATAAATGTGGGTACGCTGGCAACGCTGCCACTGTTAGCTACTAGTAGTAGCTACAGATGCACGGCCCGGACGCAGGCGTGCATGGGATGATCTCTCCACACGCGCTCTTGGTGCGTGCGTGTGCGAGGATTCTGTCTACGGTTTGCTTGCATGCACGCTTGCGGAGGCAGAGGTAGTCACGTCGTCAAGCGTGAAGCCGTGAATCGATCCACGCACGCAGCAATGCACTCCCCGTTTCTCCTTTTACGGATCTAATAATAATTATAATAATACATTATAAATATTATTGTT
|
DM462204
|
NUCLEIC ACIDS AND METHODS FOR PRODUCING SEEDS HAVING A FULL DIPLOID COMPLEMENT OF THE MATERNAL GENOME IN THE EMBRYO
| 1
| 4,862
|
DM462205.1
|
ATGAAGATATACAATGAGAAGGACTTAGAGTCCGATACAACTGTTGTGTCGATCGAAGGCGGAGTATACGATCTGGTGGCGTTTGCACCGAAACATCCGGGGGGTAACTTGATACAAGCGTGCGGCGGGTTGGACTGTACTGCTCTCTTTTACTCGATGCATCCACACAACCCACAAAAAAATCTGCGGGTTTTGGAAAAATATCGGGTAGGTAAAATGGAAAATGGACCCAAATTCAATTTTTCGTTCGATTCTCCTTTTGCAAATGAACTGAGAGATCGAGTGGCTGAAAAAGTTGCACAAGTTACTTCACATTGGTATGCTCCAATTGGATTCTGGATGCGCACGATCGTGATCATATCGCTAACTTTGTACTTTGAGTATCAATGGATAATTACAGGATCCATTGCAGCCATGGTTGCTGTTGGTGTTCTCCACGCTTGGATTGGACTTGCGGTGCAGCACGATGCATCCCATGGCGCATTTAGTTCGAATCCATACATCAACAGTTTCTTCGCATATGGCGCTGATTGGGTTGGCAACACAAAGTGGCTTTGGATGCAACAACACATCATTGGGCATCATCCCCACACGAATATTGAAAACCATGATCCTGACGCCCATTCTGCCCAGCCAATGTTGAACTTCACATCTTTTCCAGTTGCAACACGACCATTTCTCCTGCAATTTCAATGGTTATATATGTACTTGGTCTTGCCGGTTTTACGGTCCTTCAGTGGTTTACAATATTCCAGAACTGTTATCGTTAAAACCACGGTGAAAATCCCAAGTGACAATGCTTATTTGAATCGCCGCAAACCATTTTCCTATCTCATGAGGCTATTTTATTACGCCCGCATAGTATGTGCGCCAATATATCTTGCTGATGTACACTGGGGCACTAGCGATGGTGGGAGTACCATTTGTAGCCGGATTCTGTTAACCTTTGTGTTTGTACTTTCGCACAATTTTTTAGATTCCGAGCGATTTCCTTTGCAAAACGTCTCCAAAGGTAAACCTGCAGATTGGTACAAGCTTCAAGCGGAAACCTCCTGCAGTTATGGTGGGAATATCGCGATGTTTTTCACCGGAGGACTCAATTTTCAAATCGAGCATCACCTTTTCCCACGACTGTGTTCTTGGTATTATCCTTTTATTGCACCAACTGTAGTAGATGTGTGCAAAAAGTACAACGTGCAATATATTTATTATCCAAGTATATTCGCAAACATATACAGTACCCTCAAATACATGTTTTTGAATGGAAGACGCTCAGGTGATGCTCGTATTGAGTCACTCAAACAAGAATAG
|
DM462205
|
Transformed microorganisms having abilities of polyunsaturated fatty acids production and accumulation
| 1
| 1,311
|
DM462206.1
|
TAGAGCTCCGCAGAGGCATA
|
DM462206
|
Transformed microorganisms having abilities of polyunsaturated fatty acids production and accumulation
| 1
| 20
|
DM462207.1
|
AGTCTAGACAGCCCAAACAC
|
DM462207
|
Transformed microorganisms having abilities of polyunsaturated fatty acids production and accumulation
| 1
| 20
|
DM462208.1
|
ATCTCGAGGACATCAACGTCATC
|
DM462208
|
Transformed microorganisms having abilities of polyunsaturated fatty acids production and accumulation
| 1
| 23
|
DM462209.1
|
GCTCTAGAGGTCAGTACATTCAC
|
DM462209
|
Transformed microorganisms having abilities of polyunsaturated fatty acids production and accumulation
| 1
| 23
|
DM462210.1
|
GCAAGCTTATGGGGAAGGGAGGTAA
|
DM462210
|
Transformed microorganisms having abilities of polyunsaturated fatty acids production and accumulation
| 1
| 25
|
DM462211.1
|
TAGTCGACTCATTTGTGGAGGTAGG
|
DM462211
|
Transformed microorganisms having abilities of polyunsaturated fatty acids production and accumulation
| 1
| 25
|
DM462212.1
|
AGGTAAGCTTATGGAACATTTCGATGCGTCACT
|
DM462212
|
Transformed microorganisms having abilities of polyunsaturated fatty acids production and accumulation
| 1
| 33
|
DM462213.1
|
CTCTCTAGATCAATCCTTTCGCTGCTTCCTTGA
|
DM462213
|
Transformed microorganisms having abilities of polyunsaturated fatty acids production and accumulation
| 1
| 33
|
DM462214.1
|
TTCTGCACAATATTTCAAGC
|
DM462214
|
Transformed microorganisms having abilities of polyunsaturated fatty acids production and accumulation
| 1
| 20
|
DM462215.1
|
GACAACCTTGATTGGAGACTTG
|
DM462215
|
Transformed microorganisms having abilities of polyunsaturated fatty acids production and accumulation
| 1
| 22
|
DM462216.1
|
TGYCGBCAYCGBGGSAWG
|
DM462216
|
Growth Promotant of Microorganisms and Soil Sanitation Methods for use therewith
| 1
| 18
|
DM462217.1
|
CCAGCCGTRRTARSTGCA
|
DM462217
|
Growth Promotant of Microorganisms and Soil Sanitation Methods for use therewith
| 1
| 18
|
DM462218.1
|
CAGAGTTTGATCCTGGCTCAG
|
DM462218
|
Growth Promotant of Microorganisms and Soil Sanitation Methods for use therewith
| 1
| 21
|
DM462219.1
|
ACGGGCGGTGTGTACAAG
|
DM462219
|
Growth Promotant of Microorganisms and Soil Sanitation Methods for use therewith
| 1
| 18
|
DM462220.1
|
GTTGCGTGTTCTGCTTCATCGCGCTGATG
|
DM462220
|
PRODUCTION METHOD OF CADAVERINE
| 1
| 29
|
DM462221.1
|
ACCAAGCTGATGGGTGAGATAGAGAATGAGTAAG
|
DM462221
|
PRODUCTION METHOD OF CADAVERINE
| 1
| 34
|
DM462222.1
|
TCCTAGGACCCCTGCTCGTGTTACAGGCGGGGTTTTTCT
|
DM462222
|
Probe for trapping Hepatitis B Virus DNA and probe-immobilized magnetic particles
| 1
| 39
|
DM462223.1
|
CCCCTGCTCGTGTTACAGGCGGGGTTTTTCTTGTTGACAA
|
DM462223
|
Probe for trapping Hepatitis B Virus DNA and probe-immobilized magnetic particles
| 1
| 40
|
DM462224.1
|
GTCTAGACTCGTGGTGGACTTCTCTCAATTTTCTAGGGG
|
DM462224
|
Probe for trapping Hepatitis B Virus DNA and probe-immobilized magnetic particles
| 1
| 39
|
DM462225.1
|
TATCGCTGGATGTGTCTGCGGCGTTTTATCATATTCCTCT
|
DM462225
|
Probe for trapping Hepatitis B Virus DNA and probe-immobilized magnetic particles
| 1
| 40
|
DM462226.1
|
CATCCTGCTGCTATGCCTCATCTTCTTGTTGGTTCTTCTGGA
|
DM462226
|
Probe for trapping Hepatitis B Virus DNA and probe-immobilized magnetic particles
| 1
| 42
|
DM462227.1
|
CCTATGGGAGTGGGCCTCAGTCCGTTTCTCTTGGCTCAGTTTACTAG
|
DM462227
|
Probe for trapping Hepatitis B Virus DNA and probe-immobilized magnetic particles
| 1
| 47
|
DM462228.1
|
GGCTTTCCCCCACTGTTTGGCTTTCAGCTATATGGATGAT
|
DM462228
|
Probe for trapping Hepatitis B Virus DNA and probe-immobilized magnetic particles
| 1
| 40
|
DM462229.1
|
TGCCAAGTGTTTGCTGACGCAACCCCCACTGGCTGGGGCTT
|
DM462229
|
Probe for trapping Hepatitis B Virus DNA and probe-immobilized magnetic particles
| 1
| 41
|
DM462230.1
|
CTCCTCTGCCGATCCATACTGCGGAACTCCTAGCCGCTTG
|
DM462230
|
Probe for trapping Hepatitis B Virus DNA and probe-immobilized magnetic particles
| 1
| 40
|
DM462231.1
|
CCGTGTGCACTTCGCTTCACCTCTGCACGTTGCATGGAGA
|
DM462231
|
Probe for trapping Hepatitis B Virus DNA and probe-immobilized magnetic particles
| 1
| 40
|
DM462232.1
|
TGTTCAAGCCTCCAAGCTGTGCCTTGGGTGGCTTTGGGGC
|
DM462232
|
Probe for trapping Hepatitis B Virus DNA and probe-immobilized magnetic particles
| 1
| 40
|
DM462233.1
|
GCAGGTCCCCTAGAAGAAGAACTCCCTCGCCTCGCAGACGAAG
|
DM462233
|
Probe for trapping Hepatitis B Virus DNA and probe-immobilized magnetic particles
| 1
| 43
|
DM462234.1
|
ATCTTATCAACACTTCCGGA
|
DM462234
|
Probe for trapping Hepatitis B Virus DNA and probe-immobilized magnetic particles
| 1
| 20
|
DM462235.1
|
AGATTGAGATCTTCTGCGAC
|
DM462235
|
Probe for trapping Hepatitis B Virus DNA and probe-immobilized magnetic particles
| 1
| 20
|
DM462236.1
|
AGGTCCCCTAGAAGAAGAACTCCCT
|
DM462236
|
Probe for trapping Hepatitis B Virus DNA and probe-immobilized magnetic particles
| 1
| 25
|
DM462237.1
|
GGGTGAGTAACGCGTGGGAACATACCCTTTCCTGCGGAATAGCTCCGGGAAACTGGAATTAATACCGCATACGCCCTACGGGGGAAAGATTTATCGGGGAAGGATTGGCCCGCGTTGGATTAGCTAGTTGGTGGGGTAAAGGCCTACCAAGGCGACGATCCATAGCTGGTCTGAGAGGATGATCAGCCACATTGGGACTGAGACACGGCCCAAACTCCTACGGGAGGCAGCAGTGGGGAATATTGGACAATGGGCGCAAGCCTGATCCAGCCATGCCGCGTGAGTGATGAAGGCCTTAGGGTTGTAAAGCTCTTTCACCGATGAAGATAATGACGGTAGTCGGAGAAGAAGCCCCGGCTAACTTCGTGCCAGCAGCCGCGGTAATACGAAGGGGGCTAGCGTTGTTCGGAATTACTGGGCGTAAAGCGCACGTAGGCGGATATTTAAGTCAGGGGTGAAATCCCGCAGCTCAACTGCGGAACTGCCTTTGATACTGGGTATCTTGAGTATGGAAGAGGTAAGTGGAATTCCGAGTGTAGAGGTGAAATTCGTAGATATTCGGAGGAACACCAGTGGCGAAGGCGGCTTACTGGTCCATTACTGACGCTGAGGTGCGAAAGCGTGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCACGCCGTAAACGATGAATGTTAGCCGTCGGGCAGTATACTGTTCGGTGGCGCAGCTAACGCATTAAACATTCCGCCTGGGGAGTACGGTCGCAAGATTAAAACTCAAAGGAATTGACGGGGGCCCGCACAAGCGGTGGAGCATGTGGTTTAATTCGAAGCAACGCGCAGAACCTTACCAGCTCTTGACATTCGGGGTATGGGCATTGGAGACGATGTCCTTCAGTTAGGCTGGCCCCAGAACAGGTGCTGCATGGCTGTCGTCAGCTCGTGTCGTGAGATGTTGGGTTAAGTCCCGCAACGAGCGCAACCCTCGCCCTTAGTTGCCAGCATTTAGTTGGGCACTCTAAGGGGACTGCCGGTGATAAGCCGAGAGGAAGGTGGGGATGACGTCAAGTCCTCATGGCCCTTACGGGCTGGGCTACACACGTGCTACAATGGTGGTGACAGTGGGCAGCGAGACAGCGATGTCGAGCTAATCTCCAAAAGCCATCTCAGTTCGGATTGCACTCTGCAACTCGAGTGCATGAAGTTGGAATCGCTAGTAATCGCAGATCAGCATGCTGCGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGGGAGTTGGTTTTACCCGAAGGTAGTGCGCTAACCGCAAGGAGGCAGCTAACCACGGTAGGGTCAGCGACTGGGGTGAAGTCGTAACAAGGTAGCCGTAGGGGAACCTGCG
|
DM462237
|
Microorganism capable of decomposing azide, and use thereof
| 1
| 1,378
|
DM462238.1
|
AACGAACGCTGGCGGCAGGCTTAACACATGCAAGTCGAACGCCCCGCAAGGGGAGTGGCAGACGGGTGAGTAACGCGTGGGAACATACCCTTTCCTGCGGAATAGCTCCGGGAAACTGGAATTAATACCGCATACGCCCTACGGGGGAAAGATTTATCGGGGAAGGATTGGCCCGCGTTGGATTAGCTAGTTGGTGGGGTAAAGGCCTACCAAGGCGACGATCCATAGCTGGTCTGAGAGGATGATCAGCCACATTGGGACTGAGACACGGCCCAAACTCCTACGGGAGGCAGCAGTGGGGAATATTGGACAATGGGCGCAAGCCTGATCCAGCCATGCCGCGTGAGTGATGAAGGCCTTAGGGTTGTAAAGCTCTTTCACCGGAGAAGATAATGACGGTATCCGGAGAAGAAGCCCCGGCTAACTTCGTGCCAGCAGCCGCGGTAATACGAAGGGGGCTAGCGTTGTTCGGAATTACTGGGCGTAAAGCGCACGTAGGCGGATATTTAAGTCAGGGGTGAAATCCCAGAGCTCAACTCTGGAACTGCCTTTGATACTGGGTATCTTGAGTATGGAAGAGGTAAGTGGAATTCCGAGTGTAGAGGTGAAATTCGTAGATATTCGGAGGAACACCAGTGGCGAAGGCGGCTTACTGGTCCATTACTGACGCTGAGGTGCGAAAGCGTGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCACGCCGTAAACGATGAATGTTAGCCGTCGGGCAGTATACTGTTCGGTGGCGCAGCTAACGCATTAAACATTCCGCCTGGGGAGTACGGTCGCAAGATTAAAACTCAAAGGAATTGACGGGGGCCCGCACAAGCGGTGGAGCATGTGGTTTAATTCGAAGCAACGCGCAGAACCTTACCAGCTCTTGACATTCGGGGTTTGGGCAGTGGAGACATTGTCCTTCAGTTAGGCTGGCCCCAGAACAGGTGCTGCATGGCTGTCGTCAGCTCGTGTCGTGAGATGTTGGGTTAAGTCCCGCAACGAGCGCAACCCTCGCCCTTAGTTGCCAGCATTTAGTTGGGCACTCTAAGGGGACTGCCGGTGATAAGCCGAGAGGAAGGTGGGGATGACGTCAAGTCCTCATGGCCCTTACGGGCTGGGCTACACACGTGCTACAATGGTGGTGACAGTGGGCAGCGAGACAGCGATGTCGAGCTAATCTCCAAAAGCCATCTCAGTTCGGATTGCACTCTGCAACTCGAGTGCATGAAGTTGGAATCGCTAGTAATCGCAGATCAGCATGCTGCGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGGGAGTTGGTTTTACCCGAAGGTAGTGCGCTAACCGCAAGGAGGCAGCTAACCACGGTAGGGTCAGCGACTGGGGTGAAGTCGTAACAAGGTAGCCGTAGGGGAACC
|
DM462238
|
Microorganism capable of decomposing azide, and use thereof
| 1
| 1,437
|
DM462239.1
|
GAGTTTGATCCTGGCTCAG
|
DM462239
|
Microorganism capable of decomposing azide, and use thereof
| 1
| 19
|
DM462240.1
|
GAGGTGATCCAGCCGCAGG
|
DM462240
|
Microorganism capable of decomposing azide, and use thereof
| 1
| 19
|
Subsets and Splits
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