CmaCh11G009950 (gene) Cucurbita maxima (Rimu) v1.1

Overview
NameCmaCh11G009950
Typegene
OrganismCucurbita maxima (Cucurbita maxima (Rimu) v1.1)
DescriptionMyelin-associated oligodendrocyte basic protein
LocationCma_Chr11: 5363570 .. 5370618 (-)
RNA-Seq ExpressionCmaCh11G009950
SyntenyCmaCh11G009950
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.
CAAGGATCCACAAATAGGTGCCAGGTCGCCATTTCTCAAGCACGCCGTACTCTTCACGACCACCACAATATTTCCTCCCGGGAGAGAGAATTCATCCTCAGCCTCATCTTGATCCTCACCATTCCCACCAAAAACCAATCAACAAAAAGAAAAAAAGGAAGAAAATATCTCAATTCCATTTCATCTTCGCTTCAAAATTCCTCCAAATTCCAGTTCCAAATCTCTAAAATCCATGGTTTCACCTTCATTGCTTGAACCCCATCCATTGAAATGGAACCAATTCCCAGTTCATTTCGTCCAATCTCCTTCTCCATCAACGAGTGGTCGCTGTCATCTCTACAGACCCTTTATCCTACCCAAGAATTTGAGAACGGGTGGTTCTAGCTCTGTCAAATTCGGTGTTAGAGGCTTCTTTTCCAAGGAGGGGAAGAGTTTGACAACTTCGAATTCCAGGTTGGAGCGATTGGTCGATGGAGATAAACCCAAAAGGCCAATGGCGGTAATTGCCAATTCGATTATGGATGCTCTCAAGGCGTTGCGGAAGCCTGCGATTGCTGCGGTGTTGTTGGGATTGCTGTTGATGTACAATCCTAATTCTGCCTTAGCCGCTTCTGGTGGACGCGTTGGAGGAAGTGCGTTTTCGTCGCGCTCGTCTTCGTCTTCGTCTTCGTCTTCGAGGAGTTACTCAACTCCTTCGATGATTTCTGGTTATTCATATTCTGCACCTTATAGTTCGCCGTCGTTGTTTGGCGGCGGCGGGATTTACGTTGGGCCGGCGGTTGGGGTCGGAGTCGGTGCCGGATCGAGTTTTTTCTTCATATTGGCGGGTTTCGCGGCGTTTCTTCTGGTATCTGGATTTCTCTCCGATCGGTCCGATAGTAGTGTTCTCACTGCTTCTGAGAAAACTAGTGTGCTTAAACTTCAAGTATGACAAACCCTTCCCTCTGTATCTTTTTTTCTGATATATGGATTTTCTGTTACTGTTTACTCTCATTCGCCTTTTGAATCAACGGTTGAAATTCAAAACATGGCTGTGTGTTGTGCATATTCATTATGAACTCCTTGGGCTTTCCTTGGGTTTTCAAAACGTGTCTACTAGGGAGAGGTTCTACACCCTTATAAATAATGTTTGGTTCTTTTTCCCAACCGACGTGGGATCTCACATAAACAGTTGTAAGTTTGTAGGTTTAAAATTAAGAGCCTTTTGATGCAGACTGAATCTTTTTTTAAAACAACAATATGAACGGAGAATATGAAAAATAGAAGTATGGTTTCTGTGATGTTTTCTTTTTCCAATTAAAAGTTCACATATAAATTATTCCAGTGTTTACGGTATAGTTTGTAAATAAAATTTGAACATACACTCAAATAGAACTCGAATAATTTCTGGTAACACGTTATGGATGTTACACTCGGCATTTGGAAATGTGATCTTCCGAGGATAACAGAAACAGGAAATCACTGACCAACCAGGTTTGAAAAAAGGAAAAATTTGAGAAAGAAAAGAAAATTTGAGCAGGTCTTAACCGTCCCTAACCAAGGAAATTTTGACAGAGCCAAAAGGATTGTGAATTCTAGAAAGAGCTGAAACGGTGGACTATGTCTTCATCCATTGTGACTTGGCTTAAAGAAGTTGGAATTTTCTCCCATGCTAGAAGTTCTTGTCATGAGGAGCGGCTTTAATGCTTACAGAGGTCTTGTCGATGGTGGTTTACTGATGAAAGTAGAATTCTTGGGAGAAATGCGGATATATCCCACTTGTGGGTTATTTGGATGAGAAACCATATGCATTTCAACAATATTATAGCGACTTTTTATAGTTTTTTGGGGATTGTACAGAACATTGTCTCTATTTGGAGTGCTTTAGACAAAGTTCTAATTCTAGTACCCTCTTGATTAACTTAGCCTGGAGAAGTTTTTGTTTTTTTGTAATTTCCTCCCTTGGCAGAGGATGCATATCTCCTTGGATGTTATATGCTCCCTTTCTTTTTAATGGAAAGTTTCATGTTTCGTATCTTATTTAACAAAAAGAGAGGATACATCTATTGGTTATCTGAGCTTCTGGACACCAAAAAAGTTCAAGAACTTGAACCATTGTTTTTAAAGTTATCAAATTGCAAAATAAGGATTCAGAATAAACATCCCCTTACATGGTTCACTGTCCGAGCTGGTGCTTCTATGTGCCTTGAAGGTAGCGAGACTGATTCTCATCCTTTTTTCAGATCTATTCGCTGGAAGAATTGAAAAAAAAACATCCAGCTCTACCTCTTGCAGTTAACCTTAATGGCCTCATCACCTATGCTCATGGAGGTCATTCTTTTGAAAAGAAGATGAGGATCTTGATGTCTAGCATTGCTAGTATTATTTTTTTTCTGGGTTGGGGGTGTTTATTGTTGAAAAGAAATAGAACCTTCAAAGATGTCAAGAGCCCTATTTCTTTTTTTAATTATAGCTTGACCTATCTTTACCTTAATTGGAAGAGATTTTGTAAATTCCATTTCCCTTGATTGATGCTCCCCTCTCCCTTTATAGGTTTTTTAAATGATTTTAATGGAAAGTTCCTTTGGTTTCTTACGACACAAAAAAGGTTGTAAAGTTCAGTATCACGGTTTGAAAAAAAATGTAATGATGTACTGGCACAGCGTAGAAAACTTAGTTTCTGTAGTCATGAATTATTGATTTTCTTGTAGGATAGATGAATGCAGATTCTAGAGTTACAATTTACTTTATGAAAAATTTCTACAAGTATTTCATCATTCTTAACTCATGGCGTAACTCTCTCTCTCTCTCTCTCTAGGTTGGGTTGTTGGGCATGGGCCGGGGACTCCAAAGAGATCTAAATAGAATTGCTGAAAGTGCTGATACCTCAACCCCTGAGGGTTTGAGCTATGTACTAACTGGTAAACTATCGATTTCTTCCTCTCGAGATTAATTACCTCTCTCATTGTTTCCTTTCATAAAAAAAACAGTTAACTGGTACTGTTAGTCCCTGCATGTTAGAAGGTACTACAGAAAAATAAAAGACCCTAATAACAATGATGCCATCTTCTGTTTTCTGAAACTGTTTCCAGCAGGTGTTGTAAAACAAATTTTCTAAGTCAATATTGTTATTTGTTTCGGAACTGTTTAAAATTCTTCCAAAATGGTTTATAGAGATTTCTTTAAGCAGCAATCACAAGCATGCCCTTCTGTTGTGCAGTTAAAGTAACTTATTCTCTATGTGATTTTTGTTTTCCCCTTTGGGTTGCAGAAACGATTCTTGCCCTACTTCGACATCCTGATTATTGCATTTCAGGTTATTCATCTGTAAGTCCCACTATGTCCTTGGAGATTGCCTGATCTAGTTGCACAGAGTTAACACATGCATATTAATTATGTGTTGAGGGTTGCTGGGTACTAGTGGTGATTGTCCATGCCTGTTTATGAATAAAACACATTGAATAAGGCAGGGGAATGTAAAATGAGATACTTTAATAAACGAACAATAGTACACAAGAAAGTCAATAGACTACGAACACCTTTACAATCAAGAACAGCCCGATGAGTTGAATCTTTGAATAGTTATACTAAACTTGCTCAAAGGGCATGCGGGAAATTCCTCTATTCAATTCCCAAAGCATTTGTTGTTGAAGTTCAATTAATTTATTGCATTTGCGGTTAGGGTTCAATAGTTCTTGCTTGATGTTTTGGAGTTCAGTTCTTTTTGGTTGGACTCAAATCTTTGAAACTTTCCTGGTTTTTTTGTTCAAGGCTTCGGGTCCTTAGACATTGTCTTTGGTTTGGTTTTCGAAGTGTGATTATATGTGTTGAATTTAGTCCTTCAAGCTCTCTTTTTACTAGTTTTTTTTTGTTCAGTTCACTTGGTGTTTCTCGTTGTGGACGTTTTCTTCTATATCTTGTTCTTTTTGTGTTATGTCTTGTTCATTTTTTACTCCCTTGTGGAGTTTGTACTTTTGAGCATTAATCTCTTTTCATTTATTGAATGAAAAGTTTTATCAGTCTCTTTCATTAATGAAAAGAACATCTCTGGTTCAAAAAAAGAAAATATGTTTTCCATAGACATGAGGGAATAAGTTGAGAGCTATGCATTGGGTTCACTTTTCACTTGCTAATAGGAGAATCCAATATCTTCCTTTAAGCAAGAGGCCTAATCTCGGGTTGTTTTCTGCCATTATCATATCTCTATATATTTTTCTGAACAGAACACTTACTCGTCAATATGGTGATTAGTACGAGAAATAACAATAAAATTAGCTGATTGCAAAATCCCATCGCAATCTCTACACTCCTCATTTTGTATTCTTTGGTTCCTCCCTAACCATATTTCTTATAAACTAGCATTAGATATGTTGGACTAAAACCTTTTCCTTCTTATCTAGACTGTGACCAAGGAGATTTTTTTTTATCCCTGTATCAAGAATGAATAACTCTGGAACAATGTCCCAACCTTTTTTTTTTTTTATTTACTGTCAAAGGAAGACTAAGTGAAACTGAGTTTTGTCTCTTTGTGCATAGAACACACCAATTTAGAAAGGGTTTACAGGTCATCTTTTTCTAAATCCTCTATATGGGTGCCACCAAACGTTAGTCCATAAAACAACCTTGATTTTCTAGGGCACTCTATGATCTCTTTTAATGCTCTTTCCTCTAAAAATTGTGGCAATAATCTGCTGGGACAAAAGGAACTTGCTAGAGAAAATTCTATAAGAAAATTTTCATTTTCCTCTTCATCTTTTTCGTCAACTTTATTGGTAATAAGAAGTGCATTAATAAGTAGGGATTCTGGATAGAACTAAGTTGCAAGACTTGACCTCTTCTGTAAAGGATGAAGCCTTTTCCTTCAGCAAGTTTTTCCAAAATCTTTTCCTCAATTAGTTTCCAGAAATCAAAACACTAAGATCTTCCCTCAAGTGACACCCCAATTGGAGTGCCATTCTCCCATACAGTTCATGGCTTCAAATTTGAGTCACAACGCAAGCTTTTTTGTATCTTCACACGTTCATAATTAACCTAGGTTGGAGGGCTTTTCTCTGGTTCCTTCTTAGTTCTTTCGGAAAGGGGTCAGGGTCAGCTTGTTCCTTTGTCCTTTAGATTGTTCTTTTTTTGGCTGTGACAATCCTTTTTGAATGAATTTCTTGTTCTCATATATAAAAATAAAAGAAAGAAACCATTCTCATGACCTTCTCCTTGCTCACATTAGCCCTTGAAACTGATGATTTGATCATATATTGGTTAGTCACCCAGGGTCAGCACCATTGCCTATGGGGCATGAGGTTTTGGATGGGAAATTTAACCTTTGCTTCAGGATCAGAATTCTGGTTGAAAAGCTTGCTAAAAGAAAACTGTTGATATCTCCTAGAAATGGAATTTTAGTGCATGAACTTGCTAAGTCTTCAATGGATTTGTGGGGTAGATTTTGTATAAGCTGGTTTGTTATGTTATGCTCTTAATTAGTGGTGAAGTTTATTCTCGTATTCTTGTTTCCAATGTGCAAGCTTATTATCACATTCTTCTTTTAATTATTTCTCACAAGGCTTGCTAGCCTTAGTTGGTAATGGAAGCTTAATTTCACTCTTTTTGAAAAAAAAACTAGATGGATCTGAAACGTAGTATAGAAGATGGAGAGAAGCGTTTCAATAAATTATCAATTGAAGAGCGAGGGAAATTTGATGAGGAAACTCTTGTCAACGTGAATAGCATCAAAAGACAGAGTACAAGCAGCCAGAGAACAAGTGGATTTAGCAATGAGTACATTGTGGTTAGTTTCACTTGGCCTTGAGTTTTATGCGATGTATACTATTCTACATTATTTTTTGTCTTGATTGTTCTAGCTGTGCTGATTTAGAGTAAGTTTTTGGTGTATATTCATTCTCATGATTTTTGTGAGGTGTGTGTGGTAATATTGGGAAACCACTCATTTTAGAGGAAAAGCGTGATGTTCTGTTTCTTATTCTAATATTTTAAAATTTTAACAGAAGTGTCTAGTTTATTCTTTTAGTTCTATTTTAGACACAAAATTGGAAGGAGACGTCTTTTTCTCGATTAAAGCAGAATCCTTCTGGAATGTAATTCAGATTTTAGTTTGATGATTGGTTACTAAGAGGTGCATTCGTTTTGCTGGAATGATAATCTGATAATCTGATATTCATGAGAGAAAAGATCATCATGGTTTCCTTTTTTCTACCCTTTGATCACATTATTTTGAATATTAGATAACAATATTGGTGGCTGCCGAGGGAGTGCATAAGCTACCTGCTATCAATGGTAGTGGGGACTTGAAGGAAGCCTTGCAAAAACTAGCATCTATTCCTTCCAGCAAAATATTGGTAAGTTGGTATTTTAGGCCCAATAATCATTTCTATTTTAGCTTTTTTGTTTTTGAAAATTAAGTTCGTTTTTTCCCAATTTCTTCATAGTTGTTCCTACCTATCTTTTTTTTTCCTTTTAGGAATACAAATTTCAAAAACAAAAATAAGACTTCAAAAACTACTTTTTTTAGTTTTCAAACGTTGATTGAGTTTTGAAAACATTGGTCAAAAGTAGATAACAAATAGAAGAATCTCATCTCATGGGAGTGATCTTTGTAAGTTTGATTTTAAATGACTAAAAACCAAAATCTGAAGTTTTGTTTATTCTTAGATCTCAAAGTCTATTCTGTTTGCCTGCAGGCAGTTGAGGTTTTATGGACGCCGCAGAACGAGAACGACACGTTGTCTGAGCGTGAACTCCTGGAAGATTATCCACTTCTAAGGCCTCTATAAGTATGTGCGAAAATATATTCTTATTCTTAACTTCGCTGTACTTATCACAAGGATGTATAATGACACTAGAATATAGAGAGCTGTCTTGACATGGGAAAAGTGTATATAATACCATATCAGAAAATTGGTCCACAAGTTACTAAATTTAGTTTAGATTTGGATGTTTTTCATTCAGGTTCTATCTATCATTTGGTGAGTGAACACTGGCTTTCTGCATTCTACTATTTAGTGATGATAGAATGGTTATAGCATATTGAAATTGAAATTGAATGTTTACCCCAACCCAAC

mRNA sequence

CAAGGATCCACAAATAGGTGCCAGGTCGCCATTTCTCAAGCACGCCGTACTCTTCACGACCACCACAATATTTCCTCCCGGGAGAGAGAATTCATCCTCAGCCTCATCTTGATCCTCACCATTCCCACCAAAAACCAATCAACAAAAAGAAAAAAAGGAAGAAAATATCTCAATTCCATTTCATCTTCGCTTCAAAATTCCTCCAAATTCCAGTTCCAAATCTCTAAAATCCATGGTTTCACCTTCATTGCTTGAACCCCATCCATTGAAATGGAACCAATTCCCAGTTCATTTCGTCCAATCTCCTTCTCCATCAACGAGTGGTCGCTGTCATCTCTACAGACCCTTTATCCTACCCAAGAATTTGAGAACGGGTGGTTCTAGCTCTGTCAAATTCGGTGTTAGAGGCTTCTTTTCCAAGGAGGGGAAGAGTTTGACAACTTCGAATTCCAGGTTGGAGCGATTGGTCGATGGAGATAAACCCAAAAGGCCAATGGCGGTAATTGCCAATTCGATTATGGATGCTCTCAAGGCGTTGCGGAAGCCTGCGATTGCTGCGGTGTTGTTGGGATTGCTGTTGATGTACAATCCTAATTCTGCCTTAGCCGCTTCTGGTGGACGCGTTGGAGGAAGTGCGTTTTCGTCGCGCTCGTCTTCGTCTTCGTCTTCGTCTTCGAGGAGTTACTCAACTCCTTCGATGATTTCTGGTTATTCATATTCTGCACCTTATAGTTCGCCGTCGTTGTTTGGCGGCGGCGGGATTTACGTTGGGCCGGCGGTTGGGGTCGGAGTCGGTGCCGGATCGAGTTTTTTCTTCATATTGGCGGGTTTCGCGGCGTTTCTTCTGGTATCTGGATTTCTCTCCGATCGGTCCGATAGTAGTGTTCTCACTGCTTCTGAGAAAACTAGTGTGCTTAAACTTCAAGTTGGGTTGTTGGGCATGGGCCGGGGACTCCAAAGAGATCTAAATAGAATTGCTGAAAGTGCTGATACCTCAACCCCTGAGGGTTTGAGCTATGTACTAACTGAAACGATTCTTGCCCTACTTCGACATCCTGATTATTGCATTTCAGGTTATTCATCTATGGATCTGAAACGTAGTATAGAAGATGGAGAGAAGCGTTTCAATAAATTATCAATTGAAGAGCGAGGGAAATTTGATGAGGAAACTCTTGTCAACGTGAATAGCATCAAAAGACAGAGTACAAGCAGCCAGAGAACAAGTGGATTTAGCAATGAGTACATTGTGATAACAATATTGGTGGCTGCCGAGGGAGTGCATAAGCTACCTGCTATCAATGGTAGTGGGGACTTGAAGGAAGCCTTGCAAAAACTAGCATCTATTCCTTCCAGCAAAATATTGGCAGTTGAGGTTTTATGGACGCCGCAGAACGAGAACGACACGTTGTCTGAGCGTGAACTCCTGGAAGATTATCCACTTCTAAGGCCTCTATAAGTATGTGCGAAAATATATTCTTATTCTTAACTTCGCTGTACTTATCACAAGGATGTATAATGACACTAGAATATAGAGAGCTGTCTTGACATGGGAAAAGTGTATATAATACCATATCAGAAAATTGGTCCACAAGTTACTAAATTTAGTTTAGATTTGGATGTTTTTCATTCAGGTTCTATCTATCATTTGGTGAGTGAACACTGGCTTTCTGCATTCTACTATTTAGTGATGATAGAATGGTTATAGCATATTGAAATTGAAATTGAATGTTTACCCCAACCCAAC

Coding sequence (CDS)

ATGGTTTCACCTTCATTGCTTGAACCCCATCCATTGAAATGGAACCAATTCCCAGTTCATTTCGTCCAATCTCCTTCTCCATCAACGAGTGGTCGCTGTCATCTCTACAGACCCTTTATCCTACCCAAGAATTTGAGAACGGGTGGTTCTAGCTCTGTCAAATTCGGTGTTAGAGGCTTCTTTTCCAAGGAGGGGAAGAGTTTGACAACTTCGAATTCCAGGTTGGAGCGATTGGTCGATGGAGATAAACCCAAAAGGCCAATGGCGGTAATTGCCAATTCGATTATGGATGCTCTCAAGGCGTTGCGGAAGCCTGCGATTGCTGCGGTGTTGTTGGGATTGCTGTTGATGTACAATCCTAATTCTGCCTTAGCCGCTTCTGGTGGACGCGTTGGAGGAAGTGCGTTTTCGTCGCGCTCGTCTTCGTCTTCGTCTTCGTCTTCGAGGAGTTACTCAACTCCTTCGATGATTTCTGGTTATTCATATTCTGCACCTTATAGTTCGCCGTCGTTGTTTGGCGGCGGCGGGATTTACGTTGGGCCGGCGGTTGGGGTCGGAGTCGGTGCCGGATCGAGTTTTTTCTTCATATTGGCGGGTTTCGCGGCGTTTCTTCTGGTATCTGGATTTCTCTCCGATCGGTCCGATAGTAGTGTTCTCACTGCTTCTGAGAAAACTAGTGTGCTTAAACTTCAAGTTGGGTTGTTGGGCATGGGCCGGGGACTCCAAAGAGATCTAAATAGAATTGCTGAAAGTGCTGATACCTCAACCCCTGAGGGTTTGAGCTATGTACTAACTGAAACGATTCTTGCCCTACTTCGACATCCTGATTATTGCATTTCAGGTTATTCATCTATGGATCTGAAACGTAGTATAGAAGATGGAGAGAAGCGTTTCAATAAATTATCAATTGAAGAGCGAGGGAAATTTGATGAGGAAACTCTTGTCAACGTGAATAGCATCAAAAGACAGAGTACAAGCAGCCAGAGAACAAGTGGATTTAGCAATGAGTACATTGTGATAACAATATTGGTGGCTGCCGAGGGAGTGCATAAGCTACCTGCTATCAATGGTAGTGGGGACTTGAAGGAAGCCTTGCAAAAACTAGCATCTATTCCTTCCAGCAAAATATTGGCAGTTGAGGTTTTATGGACGCCGCAGAACGAGAACGACACGTTGTCTGAGCGTGAACTCCTGGAAGATTATCCACTTCTAAGGCCTCTATAA

Protein sequence

MVSPSLLEPHPLKWNQFPVHFVQSPSPSTSGRCHLYRPFILPKNLRTGGSSSVKFGVRGFFSKEGKSLTTSNSRLERLVDGDKPKRPMAVIANSIMDALKALRKPAIAAVLLGLLLMYNPNSALAASGGRVGGSAFSSRSSSSSSSSSRSYSTPSMISGYSYSAPYSSPSLFGGGGIYVGPAVGVGVGAGSSFFFILAGFAAFLLVSGFLSDRSDSSVLTASEKTSVLKLQVGLLGMGRGLQRDLNRIAESADTSTPEGLSYVLTETILALLRHPDYCISGYSSMDLKRSIEDGEKRFNKLSIEERGKFDEETLVNVNSIKRQSTSSQRTSGFSNEYIVITILVAAEGVHKLPAINGSGDLKEALQKLASIPSSKILAVEVLWTPQNENDTLSERELLEDYPLLRPL
Homology
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BLAST of CmaCh11G009950 vs. TAIR 10
Match: AT1G54520.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; EXPRESSED IN: 24 plant structures; EXPRESSED DURING: 15 growth stages; CONTAINS InterPro DOMAIN/s: Protein of unknown function DUF1517 (InterPro:IPR010903); Has 276 Blast hits to 275 proteins in 83 species: Archae - 0; Bacteria - 108; Metazoa - 6; Fungi - 0; Plants - 113; Viruses - 0; Other Eukaryotes - 49 (source: NCBI BLink). )

HSP 1 Score: 433.7 bits (1114), Expect = 1.6e-121
Identity = 262/410 (63.90%), Postives = 306/410 (74.63%), Query Frame = 0 

Query: 3   SPSLLEPHPLKWNQFPVHFVQSPSPSTSGRCHLYRPFILPKNLRTGGSSSVKFGVRGFFS 62
           S + LE  P +WNQ P+ + Q P        H     +  K  R   S  ++  V     
Sbjct: 4   SSTFLELTPFQWNQ-PLPYTQRP--------HHRTVLLYSKPQRRSNSIRLQISV----- 63

Query: 63  KEGKSLTTSNSRLERLVDGDKPKRPMAVIANSIMDALKALRKPAIAAVLLGLLLMYNPNS 122
           K  +S ++S+  L    +      P   IA  +  AL +L+KPAIAAVLLGLLL Y+PNS
Sbjct: 64  KYKQSTSSSDPDLRSNFN------PFEQIAIQVKKALDSLKKPAIAAVLLGLLLFYDPNS 123

Query: 123 ALAASGGRVGGSAFSSRSSSSSSSSSRSYSTPSMIS-GYSYS---APYSSPSLFGGGGIY 182
           ALAASGGR+GG++FSSRS SSSSSSS+SYS P   +  +SYS   APY  PS FGGG  +
Sbjct: 124 ALAASGGRIGGNSFSSRSRSSSSSSSQSYSVPRTSNPSFSYSARTAPYYGPSPFGGG--F 183

Query: 183 VGPAVGVGVGAGSSFFFILAGFAAFLLVSGFLSDRS-DSSVLTASEKTSVLKLQVGLLGM 242
           VGPAVG G G  SSF  IL GFAAF+LVSGFLSDRS D S+LT ++KTSV+KLQVGLLG+
Sbjct: 184 VGPAVGFGFGGFSSFSLILVGFAAFVLVSGFLSDRSQDDSILTDTQKTSVIKLQVGLLGL 243

Query: 243 GRGLQRDLNRIAESADTSTPEGLSYVLTETILALLRHPDYCISGYSSMDLKRSIEDGEKR 302
           GR LQ+D NR+AES+DTSTPEGLSYVLTE  LALLRHPDYCIS YSS+D+K SIE GEKR
Sbjct: 244 GRTLQQDFNRLAESSDTSTPEGLSYVLTEATLALLRHPDYCISCYSSVDVKPSIEKGEKR 303

Query: 303 FNKLSIEERGKFDEETLVNVNSIKRQSTSSQRTSGFSNEYIVITILVAAEGVHKLPAING 362
           FN+LSIEERGKFDEETLVNVNSIKRQS+  ++ SGFSNEYIV+TIL+AAEG+HKLP ING
Sbjct: 304 FNQLSIEERGKFDEETLVNVNSIKRQSSKIRKASGFSNEYIVVTILMAAEGIHKLPPING 363

Query: 363 SGDLKEALQKLASIPSSKILAVEVLWTPQNENDTLSERELLEDYPLLRPL 408
           + DLKEAL KL SIP +KI+AVEVLWTPQNE D LSERELLEDYPLLRPL
Sbjct: 364 TTDLKEALLKLGSIPRNKIMAVEVLWTPQNEADALSERELLEDYPLLRPL 391

The following BLAST results are available for this feature:
BLAST of CmaCh11G009950 vs.
Match NameE-valueIdentityDescription
BLAST of CmaCh11G009950 vs. TAIR 10
Match NameE-valueIdentityDescription
AT1G54520.11.6e-12163.90unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima (Rimu) v1.1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR010903Protein of unknown function DUF1517PFAMPF07466DUF1517coord: 225..407
e-value: 1.1E-69
score: 234.3
NoneNo IPR availablePANTHERPTHR33975MYELIN-ASSOCIATED OLIGODENDROCYTE BASIC PROTEINcoord: 75..407
NoneNo IPR availablePANTHERPTHR33975:SF2MYELIN-ASSOCIATED OLIGODENDROCYTE BASIC PROTEINcoord: 75..407

Relationships

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

Feature NameUnique NameType
CmaCh11G009950.1CmaCh11G009950.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
cellular_component GO:0009507 chloroplast
cellular_component GO:0016021 integral component of membrane