CmaCh02G010040 (gene) Cucurbita maxima (Rimu) v1.1

Overview
NameCmaCh02G010040
Typegene
OrganismCucurbita maxima (Cucurbita maxima (Rimu) v1.1)
DescriptionFK506-binding protein 5-like isoform X1
LocationCma_Chr02: 5968962 .. 5972423 (-)
RNA-Seq ExpressionCmaCh02G010040
SyntenyCmaCh02G010040
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

GGGTAGAAATTTCTTCTGATTTTCGATTCCGATCGCTATGGACTTCCGCAGCTTGTCAAGGAGAGATCTCCAAGCACTCTGCAAGAGGAATAAGATTCCGGCCAATACCACTAATGTTGCCATGGCCGACGCCCTTTCCGTTCTTCCATTGGTTGAAGGAATCGAGGAGTTTTTGAACGGCGAAGGATCTGGAGTACCAGAATCACCGATGAAACAAGAGTTTGTTAACTCGGAAATTCTTCGAACTGCACAGAGAACCACGACCAGAAGAAAGACCGTCAAAGATGAGTCAGTTACTACTCGAACACGCCGTGCAGCTGCAGCGAGATGTACAGAGGAATCGGAAAACAGAGATCTAAACGTGGTTTTAACTACTCCGTCTTTAGCGAGTGGCCGGAGAAGAATGGCGGCGGCTTCTTCAGCTTGCAAAAAGGTAGATTTTCAGATGACGGTCGATGTCGTTGAGAAAGAGGACAGCAATTTAGATCAAGAAAAGAATGATATTGAAAAAACGCCTTCTATAGTTGAAAGCCGTAAGAGAGTAGCGGCTGCTTCGACACGTAGAAGAACTGAGACTCGGAATAATGGAGCTACGGAGCGACGAGTGTATAGTACAAGAAGGTCTGCTAGATTGTTGGAGAAGAGCATGGAGAGCTTGAGTTTAGGAGGTGACGAGAAAAGGGAGCCAATTAGTAGTGTCCATATGTCTTTCGATGAAATGCCTGACAGTATAGGATCTGTGAAGGAGTATACGAGCATAGAAGTTGAGTCTGTGAAGGAGGATACGAACATAGAAGTTGAGTCTGTGAAGGAGGATACGAACATAGAAGTTGAGTCTGTGAAGGAGGATACGAACATAGAAGTTGAGTCTGTGAAGGAGGATATTAGCATAGAAGTTGAGTCTGTGAAGGAGGATACGATCATAGAAGTTGAGTCTGTGAAGGAGGATACGAGCATAGAAGTTGAGTCGGTGAAGGAGGATACGAGCATAGAAGTTGAGTCGGTGAAGGAGGATGCGAGCATAGAAGTTGAGTCTGTGGAGGAGGATGCGAGCATAGAAGTTGAGTCTGTGGAGGAGGATGCGAGCATAGAAGTTGAGTCTGTGGAGGAGGATGCGAGCATAGAAGTTGAGTCTGTGAAGGAGGATACGAGCATAGAAGTTGAGTCGGTGAAGGAGGATGCGAGCATAGAAGTTGAGTCTGTGGAGGAGGATGCGAGCATAGAAGTTGAGTCTGTGGAGGAGGATGCGAGCATAGAAGAAACTGAGTCAAATAAAACCGATGAAAGCAAATTGGATGATGATGATTTGGAGGAGTCCAAGAAACCCGATAAAAGCAAATTGGATAATGATTTGGAGTTGGAAATCGATAACCAAGTGAAGAATAAGCTGGAGTCTGAAGTAAAAGTTTCAGAGGTTGAACCAGAAGTTGATCTTGATTCGTTGAATTGTCAAGCAGAAAATCTTTCTACTGCACAGAATGATTGCTCTGAAACAGAAGCACCCGACAATAATCTGAATGTGAAATGCCTCCCTGAAGTTGAGGAAGCAAATGAAGCTTCTAATGACGATGATGCTGGGGAGATTTTTGCTGAGGAAATCAAAGACTCTGACAATTTCTCTCTCCCCACTGAAGTTGTGGACCAGACAGGAGTTTACAACTCGAGTATTGTAGAACAATCCAGTAAGGAAGTGGAACAAAATGAGTCTATTTGTGAATCAGAATGCGGAAGTGAAGAAGATGCTGAAGAAGAAGCCGAACTCACTAACATTTCAGCAGAATTGTCTCCTCCCCATGAAAATGTGGAAGAGGAAATCGAAGATGATGATGAACTCATAAAATATTCTACTGATTTATCTCTGCCCCATGAGGAAGAACAAACCCAAGTCGATGATGACTTGAGCAATGTTAAAGAATCTGTTATAGAAGTGAAAGATGACGATTTGGAGTTGGAAGAACCGGAAGTAATGGAGACGGTTTCAGTTCAAGCTGAAAAAGATGATACAGTGAACTCCATGGACTTCCCGGAGACTGTTTCTGAAGAAGAACTGGTCGATATCTTGAGCAATGTTGAAGAATCTGTTGTGTTAGTGAAAGATGACGATTCAGAGTTGGAAGAACCCGAAGTATTGGATCCTGAAGACATCAGAAATGTCGACGCCGTGGAAGAACCCGAAATCCAAAACGACATCCGATGTGAGGAAGAAATAATTCCCGGTTCCTCAAACATCAAGATCAATGGAGTTCAATCATTACCCTCCTCTTTCGAAGCTGACCAAATGGCATTGGCAAACCAATTTCCGAGGCCGACAGTAGAAACCAAATCACCAGTTAAAGACCAATCCATTCAGCTGCTAATCGACAACTCAGATACTGAAGAAGAAGATGAAGATCATAAAGAACAGGACAAAGAAATCTTGATTCAGAGGCAAAATGTGGAGAAAAATGATGTAAGCTTAAGACAGCTGCGAAAGATGTTCAAGCAACAACTCCAACTTAGCAAGAAGAAAATGGACAACAACGACAACAACAACACAAAAGTTGTTGGTGGTGGGGGGAAGCTGAGAACTGCTTTACAGCCACTGGAAGAAAACAGAATGGTAGCCATGAATGAAGTGGAGAAGAGATTATAGAAGTCTTCTTTATTTCTACTGGTTGAGGAGGGGAGAATTTTGTGGTGCTGCATGCATGGGTTCAAACTGTGGTTTGCCTTAATAGTTTGTCTGATTCTTGTCGTTGATGATCCTTTTACAATAATGCTGTGTAGTTTTTGATTTCTCAACACAACAAAAACTAGCAAATTTTTGCTTCCTTTAGAGAGAGAAATATAATACATTTCTATCTAAAATTATTGTGTTCTATTTTTTCTAGCATATGTTGAGATGAAAGAAGC

Coding sequence (CDS)

ATGGACTTCCGCAGCTTGTCAAGGAGAGATCTCCAAGCACTCTGCAAGAGGAATAAGATTCCGGCCAATACCACTAATGTTGCCATGGCCGACGCCCTTTCCGTTCTTCCATTGGTTGAAGGAATCGAGGAGTTTTTGAACGGCGAAGGATCTGGAGTACCAGAATCACCGATGAAACAAGAGTTTGTTAACTCGGAAATTCTTCGAACTGCACAGAGAACCACGACCAGAAGAAAGACCGTCAAAGATGAGTCAGTTACTACTCGAACACGCCGTGCAGCTGCAGCGAGATGTACAGAGGAATCGGAAAACAGAGATCTAAACGTGGTTTTAACTACTCCGTCTTTAGCGAGTGGCCGGAGAAGAATGGCGGCGGCTTCTTCAGCTTGCAAAAAGGTAGATTTTCAGATGACGGTCGATGTCGTTGAGAAAGAGGACAGCAATTTAGATCAAGAAAAGAATGATATTGAAAAAACGCCTTCTATAGTTGAAAGCCGTAAGAGAGTAGCGGCTGCTTCGACACGTAGAAGAACTGAGACTCGGAATAATGGAGCTACGGAGCGACGAGTGTATAGTACAAGAAGGTCTGCTAGATTGTTGGAGAAGAGCATGGAGAGCTTGAGTTTAGGAGGTGACGAGAAAAGGGAGCCAATTAGTAGTGTCCATATGTCTTTCGATGAAATGCCTGACAGTATAGGATCTGTGAAGGAGTATACGAGCATAGAAGTTGAGTCTGTGAAGGAGGATACGAACATAGAAGTTGAGTCTGTGAAGGAGGATACGAACATAGAAGTTGAGTCTGTGAAGGAGGATACGAACATAGAAGTTGAGTCTGTGAAGGAGGATATTAGCATAGAAGTTGAGTCTGTGAAGGAGGATACGATCATAGAAGTTGAGTCTGTGAAGGAGGATACGAGCATAGAAGTTGAGTCGGTGAAGGAGGATACGAGCATAGAAGTTGAGTCGGTGAAGGAGGATGCGAGCATAGAAGTTGAGTCTGTGGAGGAGGATGCGAGCATAGAAGTTGAGTCTGTGGAGGAGGATGCGAGCATAGAAGTTGAGTCTGTGGAGGAGGATGCGAGCATAGAAGTTGAGTCTGTGAAGGAGGATACGAGCATAGAAGTTGAGTCGGTGAAGGAGGATGCGAGCATAGAAGTTGAGTCTGTGGAGGAGGATGCGAGCATAGAAGTTGAGTCTGTGGAGGAGGATGCGAGCATAGAAGAAACTGAGTCAAATAAAACCGATGAAAGCAAATTGGATGATGATGATTTGGAGGAGTCCAAGAAACCCGATAAAAGCAAATTGGATAATGATTTGGAGTTGGAAATCGATAACCAAGTGAAGAATAAGCTGGAGTCTGAAGTAAAAGTTTCAGAGGTTGAACCAGAAGTTGATCTTGATTCGTTGAATTGTCAAGCAGAAAATCTTTCTACTGCACAGAATGATTGCTCTGAAACAGAAGCACCCGACAATAATCTGAATGTGAAATGCCTCCCTGAAGTTGAGGAAGCAAATGAAGCTTCTAATGACGATGATGCTGGGGAGATTTTTGCTGAGGAAATCAAAGACTCTGACAATTTCTCTCTCCCCACTGAAGTTGTGGACCAGACAGGAGTTTACAACTCGAGTATTGTAGAACAATCCAGTAAGGAAGTGGAACAAAATGAGTCTATTTGTGAATCAGAATGCGGAAGTGAAGAAGATGCTGAAGAAGAAGCCGAACTCACTAACATTTCAGCAGAATTGTCTCCTCCCCATGAAAATGTGGAAGAGGAAATCGAAGATGATGATGAACTCATAAAATATTCTACTGATTTATCTCTGCCCCATGAGGAAGAACAAACCCAAGTCGATGATGACTTGAGCAATGTTAAAGAATCTGTTATAGAAGTGAAAGATGACGATTTGGAGTTGGAAGAACCGGAAGTAATGGAGACGGTTTCAGTTCAAGCTGAAAAAGATGATACAGTGAACTCCATGGACTTCCCGGAGACTGTTTCTGAAGAAGAACTGGTCGATATCTTGAGCAATGTTGAAGAATCTGTTGTGTTAGTGAAAGATGACGATTCAGAGTTGGAAGAACCCGAAGTATTGGATCCTGAAGACATCAGAAATGTCGACGCCGTGGAAGAACCCGAAATCCAAAACGACATCCGATGTGAGGAAGAAATAATTCCCGGTTCCTCAAACATCAAGATCAATGGAGTTCAATCATTACCCTCCTCTTTCGAAGCTGACCAAATGGCATTGGCAAACCAATTTCCGAGGCCGACAGTAGAAACCAAATCACCAGTTAAAGACCAATCCATTCAGCTGCTAATCGACAACTCAGATACTGAAGAAGAAGATGAAGATCATAAAGAACAGGACAAAGAAATCTTGATTCAGAGGCAAAATGTGGAGAAAAATGATGTAAGCTTAAGACAGCTGCGAAAGATGTTCAAGCAACAACTCCAACTTAGCAAGAAGAAAATGGACAACAACGACAACAACAACACAAAAGTTGTTGGTGGTGGGGGGAAGCTGAGAACTGCTTTACAGCCACTGGAAGAAAACAGAATGGTAGCCATGAATGAAGTGGAGAAGAGATTATAG

Protein sequence

MDFRSLSRRDLQALCKRNKIPANTTNVAMADALSVLPLVEGIEEFLNGEGSGVPESPMKQEFVNSEILRTAQRTTTRRKTVKDESVTTRTRRAAAARCTEESENRDLNVVLTTPSLASGRRRMAAASSACKKVDFQMTVDVVEKEDSNLDQEKNDIEKTPSIVESRKRVAAASTRRRTETRNNGATERRVYSTRRSARLLEKSMESLSLGGDEKREPISSVHMSFDEMPDSIGSVKEYTSIEVESVKEDTNIEVESVKEDTNIEVESVKEDTNIEVESVKEDISIEVESVKEDTIIEVESVKEDTSIEVESVKEDTSIEVESVKEDASIEVESVEEDASIEVESVEEDASIEVESVEEDASIEVESVKEDTSIEVESVKEDASIEVESVEEDASIEVESVEEDASIEETESNKTDESKLDDDDLEESKKPDKSKLDNDLELEIDNQVKNKLESEVKVSEVEPEVDLDSLNCQAENLSTAQNDCSETEAPDNNLNVKCLPEVEEANEASNDDDAGEIFAEEIKDSDNFSLPTEVVDQTGVYNSSIVEQSSKEVEQNESICESECGSEEDAEEEAELTNISAELSPPHENVEEEIEDDDELIKYSTDLSLPHEEEQTQVDDDLSNVKESVIEVKDDDLELEEPEVMETVSVQAEKDDTVNSMDFPETVSEEELVDILSNVEESVVLVKDDDSELEEPEVLDPEDIRNVDAVEEPEIQNDIRCEEEIIPGSSNIKINGVQSLPSSFEADQMALANQFPRPTVETKSPVKDQSIQLLIDNSDTEEEDEDHKEQDKEILIQRQNVEKNDVSLRQLRKMFKQQLQLSKKKMDNNDNNNTKVVGGGGKLRTALQPLEENRMVAMNEVEKRL
Homology
[Close]
BLAST of CmaCh02G010040 vs. TAIR 10
Match: AT3G03130.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G17160.1); Has 7130 Blast hits to 3690 proteins in 504 species: Archae - 22; Bacteria - 2666; Metazoa - 1654; Fungi - 721; Plants - 246; Viruses - 56; Other Eukaryotes - 1765 (source: NCBI BLink). )

HSP 1 Score: 67.8 bits (164), Expect = 4.9e-11
Identity = 153/524 (29.20%), Postives = 239/524 (45.61%), Query Frame = 0 

Query: 1   MDFRSLSRRDLQALCKRNKIPANTTNVAMADALSVLPLVEGIEEFLNGEGSGVPESPMKQ 60
           MDF SL RRDLQ  CKRNKIPAN TN+AMADAL  L +VEG++EF++      P S  + 
Sbjct: 1   MDFHSLPRRDLQFFCKRNKIPANMTNIAMADALRDLEIVEGMDEFMDPSRDQSPTSVARN 60

Query: 61  EFVNSEILRTAQRTTTRRKTVKDES----VTTRTRRAAAARCTEE--SENRDLNVVLTTP 120
                   RTA R TTRRK+ KDE+    + TR+    +     E   EN+D+N +L  P
Sbjct: 61  ---LPSAARTAAR-TTRRKSTKDETQSSELVTRSCYVVSKSLAGEMDQENKDMN-MLQNP 120

Query: 121 SLASGRRRMAAASSACKKVDFQMTVDVVEKEDSNLDQEKNDIEKTPSIVESRKRVAAAST 180
           S+   R                       K D N    + ++ KTP+   +R+  AAAS+
Sbjct: 121 SVPQSR---------------------AVKLDVNDIMPEANVSKTPAARSTRRAQAAASS 180

Query: 181 RRRTETRNNGATERRVYSTRRSARLLEKSMESLSLGGD--EKREPISSVHMSFDEMPD-- 240
           ++         + +RVYSTRRS RLLE+SM  LSL  +   K+   S     F    D  
Sbjct: 181 KK-------DESVQRVYSTRRSVRLLEESMADLSLKTNVPVKKHEDSPAGSKFQAKSDEN 240

Query: 241 ----------SIGSVKEYTSIEVESVKEDTNIEV--ESVKEDTNIEVESVKEDTN----- 300
                     S   + +    E +  K D ++++    + + T  +  + KE  N     
Sbjct: 241 SENTDKGGVMSGRDLNDSLEKEWDGSKNDPDLDILYGDLGDITFFDASTSKEHLNRTDSS 300

Query: 301 -----------IEVESVKEDISIEVESVKEDTIIEV-----ESVKEDTSIEVESVKEDTS 360
                       E E+ +ED  + V+     T         ES  E   I+ ES  E+T 
Sbjct: 301 TVSASDSFVLVNEHETSQEDGFVVVDHATSTTTTNTLACNKESEPEQMKIDSESESEETE 360

Query: 361 IEVESVK-EDASIEVESVEE------DASIEVESVEEDASIEV--ESVEEDAS---IEVE 420
            E +  + +D  + V + +E       AS  V  V+  A++ +  ES E D S   + VE
Sbjct: 361 YETDPWEGDDFGVAVHTNQEAFESKVSASDNVSKVDSVATVLIADESKELDFSSSPLAVE 420

Query: 421 SVKEDTSIEVESVKEDASIEVESVEEDASIEVESVEEDASIEETESNKTDESKLDDDDLE 466
            ++ED+    +    +  +E  S   + SIE+ES E   S ++T ++ +  S L  ++  
Sbjct: 421 ELEEDSDEWSDYEIGEVELEENSCGSEESIEIESEEAPVSDKKTPAS-SSSSSLAGNETR 480

[Close]
BLAST of CmaCh02G010040 vs. TAIR 10
Match: AT5G17160.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G03130.1); Has 14330 Blast hits to 10381 proteins in 896 species: Archae - 94; Bacteria - 2881; Metazoa - 4019; Fungi - 1576; Plants - 515; Viruses - 110; Other Eukaryotes - 5135 (source: NCBI BLink). )

HSP 1 Score: 54.7 bits (130), Expect = 4.3e-07
Identity = 132/514 (25.68%), Postives = 237/514 (46.11%), Query Frame = 0 

Query: 1   MDFRSLSRRDLQALCKRNKIPANTTNVAMADALSVLPLVEGIEEFLNGEGSGVPESPMKQ 60
           MDF SL RRDLQ LCKRNKIPAN TN+AMADAL  L +V+G++E++N   S  P SP   
Sbjct: 1   MDFHSLLRRDLQFLCKRNKIPANMTNIAMADALKSLEIVDGLDEYMNQSESSAPHSPTS- 60

Query: 61  EFVNSEILRTAQRTTTRRKTVKDESVTTRTRRAAAARCTEESENRDLNVVLTTPSLASGR 120
             V      TA RTT R+ T K E   +    + + R T +S   D++      ++A   
Sbjct: 61  --VAKLPPSTATRTTRRKTTTKAEPQPSSQLVSRSCRSTSKSLAGDMDQENINKNVAQ-- 120

Query: 121 RRMAAASSACKKVDFQMTVDVVEKEDSNLDQEKNDIEKTPSIVESRKRVAAASTRRRTET 180
                                 E + SN+  E N + KTP+   +RK  AA S  ++ E 
Sbjct: 121 ----------------------EMKTSNVKFEAN-VLKTPAAGSTRKTSAATSCTKKDE- 180

Query: 181 RNNGATERRVYSTRRSARLLEKSMESLSLGGDEKREPISSVHMSFDEMPDSIGS-VKEYT 240
                  + VYSTRRS RLLEK M  LSL   + +E + +     ++    + +  K  T
Sbjct: 181 -----LVQSVYSTRRSTRLLEKCMADLSL---KTKETVDNKPAKNEDTEQKVSAQEKNLT 240

Query: 241 SIEVESVK-EDTNIEVESVKEDTNIEVESVKEDTNIEV------ESVKEDISIEVESVKE 300
             E E +   D ++ +E V E+   + + +  D  + V      E+ KE+++      KE
Sbjct: 241 GSEGEVIPGRDLSVSMEQVWENLKNDSDKIAGDLEVIVVMDANTEANKEEMNEVTADKKE 300

Query: 301 DTIIEVESVKEDTSIEVESVKEDTSIEVESVKEDASIEVESVEEDASIEVESVEEDASIE 360
                V+  KE+ ++  +++ E+   + ++ +E   + +     D  +   ++ E  + +
Sbjct: 301 SENSLVQVDKEEETL--QAICEEGPKKNDNDQEIGDLVIYVDVSDIPLLESAITETHNDD 360

Query: 361 VESVEEDASIEVESVKEDTSIEVESVKEDASIEVESVEEDA--SIEVESVEEDASIEETE 420
            ES +   +I+    +++T   ++    +   +V   + DA  S   ++++E+ S  E  
Sbjct: 361 NES-KNVLAIDRSVDQQETEHAIQENDAEPETKVNQTDSDAGDSKTKQAIQENDSEPEKI 420

Query: 421 SNKTDESKLDDDDLEESKKPDKSKLDNDLELEIDNQVKNKLESEVKVSEVEPEVDLDSLN 480
           +N  +E+ +D  D +   +P+++               + ++S+  +SE +    +   +
Sbjct: 421 NNFDEETMVDQTDSDSETEPEEN--------------HSGVDSDGTISEADSNQAVVGSD 454

Query: 481 CQAENLSTAQNDCSETEAPDNNLNVKCLPEVEEA 505
              E ++ + ++ S   AP++       P +EEA
Sbjct: 481 IADEEMTLSGSEGSAATAPNSP------PRLEEA 454

The following BLAST results are available for this feature:
BLAST of CmaCh02G010040 vs.
Match NameE-valueIdentityDescription
BLAST of CmaCh02G010040 vs. TAIR 10
Match NameE-valueIdentityDescription
AT3G03130.14.9e-1129.20unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TA... [more]
AT5G17160.14.3e-0725.68unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TA... [more]
InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima (Rimu) v1.1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 547..594
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 361..384
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 330..360
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 385..405
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 560..575
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 406..440
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 312..329
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 172..191
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 312..440
NoneNo IPR availablePANTHERPTHR33621ASPARTIC/GLUTAMIC ACID-RICH PROTEINcoord: 1..859
NoneNo IPR availableSUPERFAMILY58113Apolipoprotein A-Icoord: 242..382

Relationships

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

Feature NameUnique NameType
CmaCh02G010040.1CmaCh02G010040.1mRNA