Spg018121 (gene) Sponge gourd (cylindrica) v1

Overview
NameSpg018121
Typegene
OrganismLuffa cylindrica (Sponge gourd (cylindrica) v1)
Descriptionserine/threonine-protein phosphatase 7 long form homolog
Locationscaffold9: 25762087 .. 25771367 (+)
RNA-Seq ExpressionSpg018121
SyntenySpg018121
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: CDSpolypeptide
Hold the cursor over a type above to highlight its positions in the sequence below.
ATGTCGTCGCTGTCTCGCACATTTGTAGGGAGTTCGCTGGAATCGCAAGCTGCTGTTGCTGTGACCAGTCACTGGAACCGTCGAGAAGCCCACACATATCTGGGTTCGTTTGAGGAGATTCCGTTGTCGCCGAAAGCTTCAGAAATCGTCGAAAAATGCGTGGGTCTTGGGTCCTGCTGTTCCGTCGCTCGTTGGAGTGGGTCTTCTGTCGTTGAGACGCCGTCGCCGCTAGCGTCCAGAGAAGTTGAAGAACAGGGGGAAGCGGCTGGCGTGAGGAGCGGGAGAGGAAGAAAGTGAGAAAGAGGGAGGGAAAAAGTTAGGGTGCCTTTTTTTTGGGTTTTTTAGAAATGTAGGAAGGATATTGAAAAAAATTAGAGAATAAGGGTGCTTTTGAAAATAATTAGAGATATAAGGTGTCGCGTAGGTTAGGGTCGCGTCTGTTGGAGAGACGCGACCAAGCTTGAAAGTCGGTAACCAGACGGCAACCAATTCAACGAGACGGCAACGAGACGGCAACGGTTAAGTCGCGTCTCTACAAGAGACGCGACATTGTTGGGAAGCTAAATCGCAGAGATTCCTGACGGAATCTCTGAAGAGATGTGACTAGTCGCGTCTCTTGAAGAGACGCGACAGGCTCGGAACCACAAAGAATCTCTGCGCCGTCGCATCGTCAGTCAGCCATCACGTCCGCCGTCGCATCGTCAGCACCCATCACGTCCGCCGCAGTCATCAGTCACTTCCGTTTTTATTTTTCAGACGGTTGTTGGATAGTTTTAAAGGTGGTGGTTGCATGGTAATAAATTGCAACTTGTTTTCTTCTTGATTTATACCTCATATCCGAAAATTTCATCTCCCTCAAACAGCATCCTTTTATCTCAAACTCTCACTATCAAAATTTCAAAATCATCCCATTGAAGCCTATTTTTGTTTATCTGTGTGGAGATCGAATTTTACAATCACAACGAAGGAGCACTTCTTATTCATTAGTGGTATTTTCTATATTTCTACTTGTTGCTAATTACTTTGTATATTTTTTCTTGTTGCTAAATCGTTTGTATTCTGATGTATTATTTGTAGTGATAATGAGTTATGAATATTGTTTTGTATAGGAGAGACGCCGGAAAAGTTGAAAGGTTGTTGAAGCCAGCCGTGTGCATCTCTAATATTGTTTTGTTGGTCCTCTAATTTGTTTCTTTTTTTTTTTTTTTCATTGTATTTGACGTCCATATTTTTATTTTCTGTTTTACTAGTGTTTTTATTTTTTTTTACAGGAACAAAGTCTACCGAAAAAAAAAAGTTAACTACGATCTTTGAGCGCAGAGGTTTAAATATAGTGTAGGATTTTTTCTATTTTTTCATTGTACTTTACGTACATTTTTTTTTCCTATTTTAGGTGTGTTTTTATACTGATTTTTTTATATGACCTAACTCACAGATAAAAAAAAAGTTGTCTACGATCTTTGAGAGAGTAGGATTTTTTTTTAAGCATGTAAAAGGAATATACATTTTTTGTTTGCACTTAGGTTGGAGAAAATAGACATTTGTATAAGTTTACAAATATGTGATGCAGGAAAGTCGAGATTTATTTGCTGAGTTTAGAATAAATGTTAGTCTTGATATGGTTTTGTTGAGGAAAATATTGATTTTTTTTTCCAAAATATAGAAGTTCTTTTTAAAATTTTGATATTTTTCAAAATACGGAAGTTGTTTTTCTCAATATATACAAAAGTGTGAAAATAAATCCTCATGAAGTTAATTGGTTCGAGTAGTTTGTTTAGGGTTTTTGATTCTAAAGTGTTAAAATAGAAAAATAATTTGTTGAATTGCATTATTCAAAATGGAAAACAAGAGTTTTTAGGAAAAAAAAAATAGTTTGTAAGGTATCGAGAATGAATGTCATATTTGTTATGATTTTGTTAGTATGATGCTTGGTTATATTTTTACAGCAAAAACGTTAGATTGAAAGCTTAATTCTGAAATTTGTGGAAAAGAATTAAAAGAATATTCACACACAAGGTATGTATTAATCAATAAAGTGTAAACTATTATTATTATGGGAATGTTTATTAAATAATTTGTTGAAAAATATATTTGGTAACGAACATAGTTAATATATACATTAATGCATGGAATTTATGTTTCTATAACAGTAATTATTTTCAATAGATGATATTTGTTTTTTTACATATAGATTGTAGTAAAATTAGAAATTATCCAAAAGAAGATTCAATTTTAGTACAATTGATTGGATACAACAATTATCTTTTAAAATATAAATAATGTGTATATGTTGATAAAATAGTAAAAAAGGGGAAAATCATATTTTTTGAATTGCATTATTCAAAATGGAATACAAGGGTTTTTAGAAAAAAAAAATAGTTTCTAAGGTATTGAGAATGAATGTCATATTTGTTATAATATTGTTAAGCAAAATATTGAAATAAGTTTAATATGATGCTGGGTTATCTTTTTACAGCAAAAGCGTTAGATTGAAAGCTTAATTCTGAAATTTGTGGAAAAGAATACAAAGAATATTCACACACAAGGTATGTATTAATCAATAAAGTGTAAAATATTATTATTAGGGGAAAATCATATTGTTTAAATTTGTCATAAACCAATACTTTTGTAGAAGTTCCTATGCTAAATTCGAAGCGATAGTGATCAAATAATTAAGATATGGATATTTTGAAAAAATAATTTGAAGTTCATATACATTTAATCTTGCTTGTACTAGTTAATTAAATTAAGATATGAATATTTTGAAAATCCATAATAGTATGTTACTTATTATTGTATATAGTTGTATAAGAATAATTCAATAACCCTAAACCCTACATCTCAACCACTAAAACCATAAACCCTTGAAAACCCTAAACCTTAAACCTCCTAAACCCTAAACCCTAAAACTAATAAACCCTAAAAACCCTAAACCCTAAAACCAAAACCCCTAAAAACCCTAAACCCTAAAACTCCTAAACCCTAAAACCCTATAACCCCTAAACACTAAAATTATCAAACTTTCAAAATGTATATTAGTAACTATAGGCTAAACACTCAAAATCCAAATATAACCTTAAACCCTAAAACTAACCCCAACAAAGAAAACCCTAAAAAACCTAAACCCTTAAAAACCATAAACCCTACAACTAAAACCCTAAACCCTACATCTCAACCACTAAAACCATAAACCCTTGAAAACCCTAAACCTTAAACCTCCTAAACCCTAAACCCTAAAACTAATAAACCCTAAAAACCCTAAACCCTAAAACTCCTAAACCCTAAAACCAAAACCCCTAAAAACCCTAAACCCTAAAACTCCTAAACCCTAAAACCCTATAACCCCTAAACACTAAAACTATCAAACTTTCAAAATGTATATTAGTAACTATAGGCTAAACACTCAAAATCCAAATATAACCTTAAACCCTAAAATTCCCCAACAAAGAAAACCCTAAAAAACCTAAACCCTTGAAAACCATAAACCCTACAACTAAAACCCTAAACCCTACATCTCAACCACTAAAACCATAAACCCTTGAAAACACTAAACCTTAAACCTCCTAAACCCTAAACCCTAAAAACCCTAAACCCTAAAACTCCTAAACCCTAAAACCAAAACCCCTAAAAACCCTAAACACTAAAACTCCTAAACCCTAAAACCCTATAACCCCTAAACACTAAAATTATCAAACTTTCAAAATGTATATTAGTAACTATAGGCTAAACACTCAAAATCTAAATATAACCTTAAACCCTAAAACTAACCCCAACAAAGAAAACCCTAAAAAACCTAAACCCTTACAAACTACTAAAACCCTAAACCCTAAAAAACCATAGACCCTACATCTCAACCACTAAAACCATAAATTCTTAAAAACCCTAAATCTTCTAAACCCTACAACTAAAACCCTAAAACCAAAACCCCTAAAAAACCCTAAACCCGAAAACCCTAAAACCAAAACCCCTAAACCCTAAAATTATTTAACTTTCGAAATGTATATTAGTAAACACTCAAAATCCAAAACCCTAAATCTAACCCCAATAAAGAAAACCCTAAAAACCCTAAATCGTAACCCCTAAAATCTTAAACCCAAAAACCATAACCTTTAAACCCGAAAAACCCTAAACCATAAAATACTAAGTCCTTAAAATCCAAAAAATCTCTAGACCTAAACTCTAAAACTCTAAAGACCTAGAGGACGTTGTCTAAGAATCTTAAGCATTAAAAACCATAATTCGAGAAATATCCTAAATCTTGTGTGAAATTCATAAGAAGTAAAAACTATAATCCATAATTTTAGTATGTTTTAGTTGTTGACTTAGTTACTATTTCCTTCCAGGACGTTGTCTCAAAATCATATATAGTGTCATAGTTATCATGGAATATGTTGGATTTATATGCTACATGGGTGGGAATATAGTCCACGGTCTGAATGGTATAGAGTACGATGTCGGGCCATCTGTTATGATCAATTTTCATCGGGATATTGCATTCGAAGATTTTATTCAAGGATTATGCAATGGCCTATCAATTGATAGAACTAGAGGGTTGGAGGTCATATTTAGATACAGAACTATAGGATTTCAAGGGTCCACTTATTATGCTCCGGTATCATTACGAAGCGAAGTTGATCTTAGGTTTATGATGACCAATGCTCCTTCTCTTCCCTCTAGAGTAGAGCTTTTTATCTCTCAACCGAACAACGTAAGTATAGCTCCTGAAGTTGATTATACCCCTGGACAATACTATATCCCTGAACAAGACTATAGCCTGGAAGTTGAAGGTGAAGATAACCTTGAACTTGATGATCAGAACATTCATTTTTCACAGAATGACGATGACGATGACGATGACGATGACGATGACTATATCCCTGAACAAGACTCAATGGTTGTGACGAATGACGATGTTGGAACGGAGTCTGATAATGATAGCACAGATGAAGCATCCGATGATAGTGTCGAGGAAGCGCCGCAGATGTACGGTGTGCATGAAATCCCTCCATTTTTCACAGAGTTGGACATGAGAGCTATCGATTCCCTTCCTAACACGGGCATTGAAAGAGAAGCAAGAGGAGACGATTCATTGGTGAAAGGGATGATATATAAGTCGAAGAACGACTTAATGAACGCTGTTAAAAGCTACTCTATCATTCGGCATCAACACTTTGACGTCGTTGAGTCGAAGAAAAAGGTGTGGGCAGTCAAATGTAAACGATACGGCGAAGGTTGTATGTGGCGCCTCCGTGCCTGTTGCCTTAAGAAACATGGCCAATTTAAAATCACACAATACAATGGGCCACATTCGTGTGTTTATGCTAGGTTGAGTCAAGACCATAGACAACTAGACTCAAACCTCATTGCAGCTGAAATCCACGGCGTCGTCAAGAGCAACCCATCTATAGACATTCGAACATTACAGGAAATCATAGTGCAAAAGTACGGATATTCTGTAAAATATTCGAAGGTATGGGATGGGAAGAGGAAAGCTATACAAAATGTCTTTGGAGATTGGGATGAATCGTATACGTTATTGCCATCTTGGACCAATATCCTAATGCTAACAAATCCTGGTACAAAAGTTGAATGGAGGTGGTACGAGACGGAGGGGAATAATAATGAAATAATATTTCGCAGTGTTTTCTGGTCGTTCGGTCCGGTTATCGAGGGTTTCAAACATTGTAGACCATTGCTTCAAATCGACGGAACACATCTGTATGGAAAATATAAAGGCAAATTGTTGATTGCTACATCCGTTGATGCAGACGGACACATATACCCCGTTGCATATGCCATCGTACCAGAAGAAAGTTCAGATACATGGGGTTGGTTTTTAAAAACGCTCCGACAACGGGTGGTTGGTGCGAGGGCCGATGGGATGTGTCTGATTTCAGATAGGCATAAGGGTATCATCTCGGCTGTACGTGACAAGGAGAACGGTTGGACTAATGCACACCATCGATTTTGTTTGCGACATCTTGCAAGCAACTTCAATGAACGGTACAAAGACAAGGTTTTGAAGAAGTTGGTGTACCGGGCTGGTTCAAAGTTTACAGTTACTAAGTTCAATCGTTGCATGCAAGAGCTTCAATCAATTAATAAGGAGTGCATGAGATTTTTTACGTCCTTAGATCCGACGCAGTGGACACAATCACACGATGGAGGACATCGTTATGGTTGGTTGACAACGAACGTAGCCGAGTGCACCAATGGGGTCCTAAAAGGAGCTAGAAAATTGCCCATCACTGCATTAGTTCAAGCCACATTCTATCGAACAGTAACATATTTTGCCACCCGACGACATGAAATACAGAAGTCTCTAAATTCTGGACAACAATTCACACGGTAAAAAATTTCTATAACCCATAGTTCATAAGTTCTGCTTCATGAAACTCGATAATAATTTATGTCATTATGTTAGGTATGCAATTGACATGCTAATTCCATGGGAAGCACGAGCAAACAGTCACAAAATCCACGTGTTCGATTATGATCTGGGTATATGTGATGTCACTACATCAATTAACCCAATAACAATGAAGGGTGGAACAAAACATCGAGTACGTTTGTGCGATGAATCATGTGTTTGCAATAAGTGGAAAACATATGGCATCCCATGTTCCCACGCCATTGCTGCCTGCAAAGAAATTGGAGTAGACTACCTGCGTTTTGTTAAACCTTACTATAAGCTATCAACTTATTTGGCTTGTTATGTGCCCCAATTTGAACCAATCCCAGATCAAAGTTGTTGGCCTGAAACAAGTGGTCAAAAAGTGGTTCCAGACGTCTCCTATGTGAGAGGTGTAGGTCGACCACGTAGTTCTCCCATCAGAAATGAGATGGATTGGAGGGAGCCCGCGGTCAAGATACGTTGTGGAGTTTGTAGGCAAGAAGGACACAATCGTAGAAATTGTCCTCATAGAGCATCTAGACGAATGCAATAGGCTGTGAATGTTTCCAATCTTTTTGTTACTATGATTTTAATATGTGTAACTTACGTATTTATTTATGTGGAATAAAAATCACTATATTACATGTGTGCAAACTCACCTTCTTATTATTAATGAAACTAACATTAACTGTTAATGTACTTAAATGTTGTTAGATGGGAGACAATGATATTACAACGGGTCCGTATGATCCATCAGTGCTACGCCTACAGGCCAGTCATCGGTCCGAACTGGTTTGGGAGGATGTCTACATCAATGCCATGCATTGTAGACGTCGCGAGGCCGTGTTGAAGAGGTTTTCTACTCCAGACCCTCGTATTGAGCCCTACTTACGGGCTTCTGGCTTTTATGGGGTATCGTGCATTAGATTCATCCAGCTGGATTGGCACCTGATTACGGCCATGGTCGAGCGTTGGCGCCAAGAGACACACACTTTCCACCTTCCACATGGGGAGTGTACAATCACGCTACAGGATGTCGCAATACAATTTGGGCTTCCGATAGATGGGAAAGCTTTGATCGGATCAGTGAACGCAGACTGGTCAGTTATATGTCAAGACTTGATGGGTGTTACTCCTGGGAACCGTATGCTGGATGGAGGTCGCATAAGTCTATCATGGTTGGCCGAACAGTTTGACAATTTCACCCATCTTCCAGAGGATGCCGATGAACAAGACCTCCGACGGTACGCTCGAGCATACATTTTATCGCTCATCGGAGGTATGCTATTTCCTGATAAGTCCAACTCGAAAGTCCATCTAATGTATCTTTCGTTGCTTGAGGATTTTGATGAGGCCGGTACATATAGTTGGGGTGCGGGCTGTCTCGCCTGGTTGTACAGGAACCTTTGCAAAGGTTCAGTTATCGATGCAAGGGACCTAGGTGGTTCCCTAATTTTGTTGCAATTATGGACGTGGGATCGATTCCCAACGTTAGCACCGAGACGACGTCACCGGTTCGAGTACCAACTAGGAGATCGACCTTTGGCAGTCCGGTAAGAACCTTTGGCGAATACAACTATATTCCTTTGTGTAAAACTTGAAAATAAAAAAAACTAATATTCAATATTGTACTTTGTAGGTGGAATGATGAATTTTCAGTGATCAGGACGCCAACACATGTCCTCGTCCAATACAGATATATGTTGGACACGATTAGGCCAGATCAGGTATAGTTATGTTTAGACAGTAATTTATTTTTTTTACCAACTTCTTCATTCCTAATTATGAATGTCAACTACAATTGCATTTTATCGTTGTGTAGATTATATGGGAGCCGTATCAACACCTCATTAATATGTTACCGGAGTACTGTCTAATCGGTCAGGACATTTGGACTAGCAGAAGTCCACTCATTTGCTTTTTCGCAGTAGAGTGGCATTTCCCTGATCGTGTTATAAGACAGTTTGGATGGGTGCAGCATATCCCCATACATTGTAACACAGACATGGTCCTGCACTCGTACAACTTACGAGGTCGTCATGAACGGGATTGGGCTACTTATCTAGCTCCATCCATTCAAATATGGGAAGGGCGACGTGATATTATTATTCACGGGCAACCAACTGATGGGGGTGTTGATGTGGACCCACAATACAATCACTGGTTCGCAACTATCAGTCGTCGGTACCTCACGAAGGCAGGAGCCTCGTACCACTTCTTGGTAAGATTTCGTTAAAATAAGTAAGTTAAAAATATTACGTTATTATAAACTATGAACGTTCCATTAATTTCATTTTCTGTGTTCTAGTGTCAGGACCCCATAATGACGGAAGCTCATAGAAGGGCCCTCCAACATATAACGGATATATACCACATCATACATGAAAATGGAGGTGTCCCGGGTCAAAATGAAGATGATCCTATCCACCAACAAGCTGCTCCAGAGCAACAACAGTATTACCCACAGGAGCAACACGTTGATGTAAATGATCCTATCCAACGTCAAACTGCCCCAGCTCAGCACCAATATAACCCACAGGAGCAACGTGTTGATCTCACTCAACAACATGATGATCCCCCATTGTTCCCATATGTGCCTTCACCACCCCTGATGTTCGAACAAACATTCCCAGAACTCTTCTCTTCCCCTAATTTCATGTCGCAAACACCTACATTCTTCGGAAATTGGGAAGAAGGTCAGTCTTCACATACTTACCATGCACCGGAAGAACAGTATGTGACATATCGAAATCCAAATCAGGGAATACACATCAGGGATGCAAGTGATACGACAAATACAAGAGGTCGGGGTGATCGAGGCCAATACGTAACTCACCGATCACGAGCTAGGCGCCATAGGACCCCATCTTCTAGTGAAGACCCATAA

mRNA sequence

ATGTCGTCGCTGTCTCGCACATTTGTAGGGAGTTCGCTGGAATCGCAAGCTGCTGTTGCTGTGACCAGTCACTGGAACCGTCGAGAAGCCCACACATATCTGGGTTCGTTTGAGGAGATTCCGTTGTCGCCGAAAGCTTCAGAAATCGTCGAAAAATGCGTGGGTCTTGGGTCCTGCTGTTCCGTCGCTCGTTGGAGTGGGTCTTCTGTCGTTGAGACGCCGTCGCCGCTAGCGTCCAGAGAAGTTGAAGAACAGGGGGAAGCGGCTGGCTCGCGTCTCTTGAAGAGACGCGACAGGCTCGGAACCACAAAGAATCTCTGCGCCGTCGCATCGTCAGTCAGCCATCACGTCCGCCGTCGCATCGTCAGCACCCATCACGTCCGCCGCAGTCATCAGTCACTTCCGTTTTTATTTTTCAGACGGTTGTTGGATAGTTTTAAAGGTGGTGGTTGCATGATTGAAAGCTTAATTCTGAAATTTGTGGAAAAGAATACAAAGAATATTCACACACAAGGACGTTGTCTCAAAATCATATATAGTGTCATAGTTATCATGGAATATGTTGGATTTATATGCTACATGGGTGGGAATATAGTCCACGGTCTGAATGGTATAGAGTACGATGTCGGGCCATCTGTTATGATCAATTTTCATCGGGATATTGCATTCGAAGATTTTATTCAAGGATTATGCAATGGCCTATCAATTGATAGAACTAGAGGGTTGGAGGTCATATTTAGATACAGAACTATAGGATTTCAAGGGTCCACTTATTATGCTCCGGTATCATTACGAAGCGAAGTTGATCTTAGGTTTATGATGACCAATGCTCCTTCTCTTCCCTCTAGAGTAGAGCTTTTTATCTCTCAACCGAACAACGTAAGTATAGCTCCTGAAGTTGATTATACCCCTGGACAATACTATATCCCTGAACAAGACTATAGCCTGGAAGTTGAAGGTGAAGATAACCTTGAACTTGATGATCAGAACATTCATTTTTCACAGAATGACGATGACGATGACGATGACGATGACGATGACTATATCCCTGAACAAGACTCAATGGTTGTGACGAATGACGATGTTGGAACGGAGTCTGATAATGATAGCACAGATGAAGCATCCGATGATAGTGTCGAGGAAGCGCCGCAGATGTACGCTCCATCCATTCAAATATGGGAAGGGCGACGTGATATTATTATTCACGGGCAACCAACTGATGGGGGTGTTGATGTGGACCCACAATACAATCACTGGTTCGCAACTATCAGTCGTCGGTACCTCACGAAGGCAGGAGCCTCGTACCACTTCTTGTGTCAGGACCCCATAATGACGGAAGCTCATAGAAGGGCCCTCCAACATATAACGGATATATACCACATCATACATGAAAATGGAGGTGTCCCGGGTCAAAATGAAGATGATCCTATCCACCAACAAGCTGCTCCAGAGCAACAACAGTATTACCCACAGGAGCAACACGTTGATGTAAATGATCCTATCCAACGTCAAACTGCCCCAGCTCAGCACCAATATAACCCACAGGAGCAACGTGTTGATCTCACTCAACAACATGATGATCCCCCATTGTTCCCATATGTGCCTTCACCACCCCTGATGTTCGAACAAACATTCCCAGAACTCTTCTCTTCCCCTAATTTCATGTCGCAAACACCTACATTCTTCGGAAATTGGGAAGAAGGTCAGTCTTCACATACTTACCATGCACCGGAAGAACAGTATGTGACATATCGAAATCCAAATCAGGGAATACACATCAGGGATGCAAGTGATACGACAAATACAAGAGGTCGGGGTGATCGAGGCCAATACGTAACTCACCGATCACGAGCTAGGCGCCATAGGACCCCATCTTCTAGTGAAGACCCATAA

Coding sequence (CDS)

ATGTCGTCGCTGTCTCGCACATTTGTAGGGAGTTCGCTGGAATCGCAAGCTGCTGTTGCTGTGACCAGTCACTGGAACCGTCGAGAAGCCCACACATATCTGGGTTCGTTTGAGGAGATTCCGTTGTCGCCGAAAGCTTCAGAAATCGTCGAAAAATGCGTGGGTCTTGGGTCCTGCTGTTCCGTCGCTCGTTGGAGTGGGTCTTCTGTCGTTGAGACGCCGTCGCCGCTAGCGTCCAGAGAAGTTGAAGAACAGGGGGAAGCGGCTGGCTCGCGTCTCTTGAAGAGACGCGACAGGCTCGGAACCACAAAGAATCTCTGCGCCGTCGCATCGTCAGTCAGCCATCACGTCCGCCGTCGCATCGTCAGCACCCATCACGTCCGCCGCAGTCATCAGTCACTTCCGTTTTTATTTTTCAGACGGTTGTTGGATAGTTTTAAAGGTGGTGGTTGCATGATTGAAAGCTTAATTCTGAAATTTGTGGAAAAGAATACAAAGAATATTCACACACAAGGACGTTGTCTCAAAATCATATATAGTGTCATAGTTATCATGGAATATGTTGGATTTATATGCTACATGGGTGGGAATATAGTCCACGGTCTGAATGGTATAGAGTACGATGTCGGGCCATCTGTTATGATCAATTTTCATCGGGATATTGCATTCGAAGATTTTATTCAAGGATTATGCAATGGCCTATCAATTGATAGAACTAGAGGGTTGGAGGTCATATTTAGATACAGAACTATAGGATTTCAAGGGTCCACTTATTATGCTCCGGTATCATTACGAAGCGAAGTTGATCTTAGGTTTATGATGACCAATGCTCCTTCTCTTCCCTCTAGAGTAGAGCTTTTTATCTCTCAACCGAACAACGTAAGTATAGCTCCTGAAGTTGATTATACCCCTGGACAATACTATATCCCTGAACAAGACTATAGCCTGGAAGTTGAAGGTGAAGATAACCTTGAACTTGATGATCAGAACATTCATTTTTCACAGAATGACGATGACGATGACGATGACGATGACGATGACTATATCCCTGAACAAGACTCAATGGTTGTGACGAATGACGATGTTGGAACGGAGTCTGATAATGATAGCACAGATGAAGCATCCGATGATAGTGTCGAGGAAGCGCCGCAGATGTACGCTCCATCCATTCAAATATGGGAAGGGCGACGTGATATTATTATTCACGGGCAACCAACTGATGGGGGTGTTGATGTGGACCCACAATACAATCACTGGTTCGCAACTATCAGTCGTCGGTACCTCACGAAGGCAGGAGCCTCGTACCACTTCTTGTGTCAGGACCCCATAATGACGGAAGCTCATAGAAGGGCCCTCCAACATATAACGGATATATACCACATCATACATGAAAATGGAGGTGTCCCGGGTCAAAATGAAGATGATCCTATCCACCAACAAGCTGCTCCAGAGCAACAACAGTATTACCCACAGGAGCAACACGTTGATGTAAATGATCCTATCCAACGTCAAACTGCCCCAGCTCAGCACCAATATAACCCACAGGAGCAACGTGTTGATCTCACTCAACAACATGATGATCCCCCATTGTTCCCATATGTGCCTTCACCACCCCTGATGTTCGAACAAACATTCCCAGAACTCTTCTCTTCCCCTAATTTCATGTCGCAAACACCTACATTCTTCGGAAATTGGGAAGAAGGTCAGTCTTCACATACTTACCATGCACCGGAAGAACAGTATGTGACATATCGAAATCCAAATCAGGGAATACACATCAGGGATGCAAGTGATACGACAAATACAAGAGGTCGGGGTGATCGAGGCCAATACGTAACTCACCGATCACGAGCTAGGCGCCATAGGACCCCATCTTCTAGTGAAGACCCATAA

Protein sequence

MSSLSRTFVGSSLESQAAVAVTSHWNRREAHTYLGSFEEIPLSPKASEIVEKCVGLGSCCSVARWSGSSVVETPSPLASREVEEQGEAAGSRLLKRRDRLGTTKNLCAVASSVSHHVRRRIVSTHHVRRSHQSLPFLFFRRLLDSFKGGGCMIESLILKFVEKNTKNIHTQGRCLKIIYSVIVIMEYVGFICYMGGNIVHGLNGIEYDVGPSVMINFHRDIAFEDFIQGLCNGLSIDRTRGLEVIFRYRTIGFQGSTYYAPVSLRSEVDLRFMMTNAPSLPSRVELFISQPNNVSIAPEVDYTPGQYYIPEQDYSLEVEGEDNLELDDQNIHFSQNDDDDDDDDDDDYIPEQDSMVVTNDDVGTESDNDSTDEASDDSVEEAPQMYAPSIQIWEGRRDIIIHGQPTDGGVDVDPQYNHWFATISRRYLTKAGASYHFLCQDPIMTEAHRRALQHITDIYHIIHENGGVPGQNEDDPIHQQAAPEQQQYYPQEQHVDVNDPIQRQTAPAQHQYNPQEQRVDLTQQHDDPPLFPYVPSPPLMFEQTFPELFSSPNFMSQTPTFFGNWEEGQSSHTYHAPEEQYVTYRNPNQGIHIRDASDTTNTRGRGDRGQYVTHRSRARRHRTPSSSEDP
Homology
[Close]
BLAST of Spg018121 vs. NCBI nr
Match: XP_038877923.1 (uncharacterized protein LOC120070133 [Benincasa hispida])

HSP 1 Score: 99.4 bits (246), Expect = 1.2e-16
Identity = 79/202 (39.11%), Postives = 115/202 (56.93%), Query Frame = 0 

Query: 185 MEYVGFICYMGGNIVHGLNGIEYDVGPSVMINFHRDIAFEDFIQGLCNGLSIDRTRGLEV 244
           M+ V F+CYM GNIV+G +GIEYD  PS+ IN HR   F   I G  +  SI+R   +EV
Sbjct: 1   MDVVEFLCYMHGNIVNGPSGIEYDRQPSLRINMHRQDDFNTLIDGFYDAYSINRDDVVEV 60

Query: 245 IFRYRTIGFQGSTYYAPVSLRSEVDLRFMMTNAPSLPSRVELFISQPNNVSIAPEVDYTP 304
           IFRY +     ST++ P+SLRS++D++FMM+NAP  P+RVEL+ISQP+           P
Sbjct: 61  IFRYGSY-VARSTFHIPISLRSDIDVQFMMSNAPYPPNRVELYISQPS----------VP 120

Query: 305 GQYYIPEQDYSLEVEGEDNLELDDQNIHFSQNDDD---DDDDDDDDYIPEQDSMVVTNDD 364
                 E+  ++E+E    +E +  +   + ND++   DDDD D D +  Q   V    +
Sbjct: 121 SPTSTREEVETVELESH-VVEDEHYDPTIATNDEEVKMDDDDIDLDQLSSQFYGVHEVPE 180

Query: 365 VGTESD-NDSTDEASDDSVEEA 383
             TE D N+ T E    + E++
Sbjct: 181 TFTEIDLNEMTTEPDSTTGEDS 190

[Close]
BLAST of Spg018121 vs. NCBI nr
Match: XP_038891623.1 (serine/threonine-protein phosphatase 7 long form homolog [Benincasa hispida])

HSP 1 Score: 87.8 bits (216), Expect = 3.6e-13
Identity = 37/90 (41.11%), Postives = 59/90 (65.56%), Query Frame = 0 

Query: 387 APSIQIWEGRRDIIIHGQPTDGGVDVDPQYNHWFATISRRYLTKAGASYHFLCQDPIMTE 446
           AP I IWE R  ++++G P + GV  +P Y  W++T+SR Y+TKA ASYH L + P ++ 
Sbjct: 201 APQITIWENRHCLVVNGPPINNGVGTEPGYIEWYSTVSRLYITKAEASYHLLAELPNLSI 260

Query: 447 AHRRALQHITDIYHIIHENGGVPGQNEDDP 477
           + +R L+ +T IY + + +G VP + + DP
Sbjct: 261 STQRVLRRLTSIYRVRYFDGDVPMEEQCDP 290

[Close]
BLAST of Spg018121 vs. NCBI nr
Match: XP_022159786.1 (serine/threonine-protein phosphatase 7 long form homolog [Momordica charantia] >XP_022159787.1 serine/threonine-protein phosphatase 7 long form homolog [Momordica charantia])

HSP 1 Score: 84.3 bits (207), Expect = 4.0e-12
Identity = 37/80 (46.25%), Postives = 56/80 (70.00%), Query Frame = 0 

Query: 387 APSIQIWEGRRDIIIHGQPTDGGVDVDPQYNHWFATISRRYLTKAGASYHFLCQDPIMTE 446
           AP I  WE R ++II GQ  +   DV+P+Y  W+ +I+RRY+T+AGASY++L   P MT+
Sbjct: 86  APQITEWENRHNVIIQGQHINRDEDVEPRYYCWYYSITRRYITRAGASYNYLNNLPNMTD 145

Query: 447 AHRRALQHITDIYHIIHENG 467
             RR+LQ++T+ Y + H +G
Sbjct: 146 LGRRSLQNLTNAYRVRHLDG 165

[Close]
BLAST of Spg018121 vs. ExPASy TrEMBL
Match: A0A6J1E501 (serine/threonine-protein phosphatase 7 long form homolog OS=Momordica charantia OX=3673 GN=LOC111026102 PE=4 SV=1)

HSP 1 Score: 84.3 bits (207), Expect = 1.9e-12
Identity = 37/80 (46.25%), Postives = 56/80 (70.00%), Query Frame = 0 

Query: 387 APSIQIWEGRRDIIIHGQPTDGGVDVDPQYNHWFATISRRYLTKAGASYHFLCQDPIMTE 446
           AP I  WE R ++II GQ  +   DV+P+Y  W+ +I+RRY+T+AGASY++L   P MT+
Sbjct: 86  APQITEWENRHNVIIQGQHINRDEDVEPRYYCWYYSITRRYITRAGASYNYLNNLPNMTD 145

Query: 447 AHRRALQHITDIYHIIHENG 467
             RR+LQ++T+ Y + H +G
Sbjct: 146 LGRRSLQNLTNAYRVRHLDG 165

The following BLAST results are available for this feature:
BLAST of Spg018121 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_038877923.11.2e-1639.11uncharacterized protein LOC120070133 [Benincasa hispida][more]
XP_038891623.13.6e-1341.11serine/threonine-protein phosphatase 7 long form homolog [Benincasa hispida][more]
XP_022159786.14.0e-1246.25serine/threonine-protein phosphatase 7 long form homolog [Momordica charantia] >... [more]
BLAST of Spg018121 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Spg018121 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1E5011.9e-1246.25serine/threonine-protein phosphatase 7 long form homolog OS=Momordica charantia ... [more]
BLAST of Spg018121 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (cylindrica) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 334..351
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 331..383
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 598..613
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 365..379
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 587..630

Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
Spg018121.1Spg018121.1mRNA