CmaCh02G004550 (gene) Cucurbita maxima (Rimu) v1.1

Overview
NameCmaCh02G004550
Typegene
OrganismCucurbita maxima (Cucurbita maxima (Rimu) v1.1)
DescriptionPhosphoenolpyruvate carboxykinase (ATP)
LocationCma_Chr02: 2361320 .. 2366410 (-)
RNA-Seq ExpressionCmaCh02G004550
SyntenyCmaCh02G004550
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGATTGCAATCTCTCTAGCTCGCTCTGCATTTTCCGGCCCCAATTCTTCACAGCCCTTTTTCCGGCTATCACGACATAGTCGGTCCTGGAGCTCCTATGGTCTTAATTCTGCTCTAGCTGGGAAAGGGATTTTGGTTCAGGACCAGGCTTTTCTAAATTTGAAGTCCACTGAACTATTCCAAAAGGGTGCAACTCTTGCAGAACCCTTATCAGGGCTTCCCATTCATGTAACGAGTCACATTTCTTCCATCTCAAATATTTATGTTCATGATGGTGCAATTGGATCAAGATCAAAATGTAATGTGAAAATTCGAATGATAAGTGATGGTCCTTCTTCAATATTAGCATTTTCAAATATTGTATGGGAGACTACAACCCGGGCAATTTCTCACGATTCTTGTCCTCTGACAGTTTATGCTGCTGAATCTATAAGCCCAGGGGTGGGAAATACAATTGGTCTTGGAGCTGGAGGAGATAATGGATTCATAGCTGCTGATATTGAGCGTTCAATGCTGATATTATGTGGAAAAGCTTTCTCAGATACAAATGGAACTAAAGAAACACTTGTTGCTTTATCCGAACCTGTGATATTTGCACGCGGAGGACTTCCTCTTCCTGCAAGGCTTTTAGTTTCTGGTGATTCTGTGGTTTTGTTGTTCGCCCCTGAAGACGTTATTCAGAACTGTGCTGCTTTTCTGGTATCTAAAGATGCTGGTGTTGTTCTTTCCTCCGAAGGTGTCATGCCATTTTTCCGAATAGGGAATACGAATACCAATGGCCCACATATCTTCAAATCACCTTCAGCTATTGTTCTTGTAACTTCTGATGACTCTAGAACTATTCCTTCTGCTTCAAAGCTTTCTCCTGGTCAGGCTGCGTATCACTTTTTGGCTGGGCATCAGAATGGTAAATTTGTGGCAGCATTCCACAAAGGCCCCTCATCTATTGACCCATTGGAACTGGGCAAGGCTTTACTGTGCATGGTGGTGAACTTAAGAGAAGGTACAAAAGCTTTGTAAGTGAAAAATATCAACAATTGCCTGAGGATTTTTCCTTCTGAAGGTGACCATCGCATTCCTTTCATGTAGTTTATAGTATTCAATTTGTTAGTGGCAAGCAATTGGGTAGCGTTTAGAATACGTGTCATTTTCGATGTAGGTAGTTATTGTTCACAAATAGGCATTGGATTTTCTCGATACATCAATTCATACTCTAACAGTATGTAGTTCAATAAGAAAGTGATGAATGAGAGTAAGTGATGAGTGAGAGTAGCTAGATTATTAAAAGACCATCGTCTTCTTGTATCAATCTCTTCTGGGTCATACCAATCTAACAACTTATACTTAAGTTAAGAAAAATATGAACAACTCATTTCACATCCTTTA

Coding sequence (CDS)

ATGATTGCAATCTCTCTAGCTCGCTCTGCATTTTCCGGCCCCAATTCTTCACAGCCCTTTTTCCGGCTATCACGACATAGTCGGTCCTGGAGCTCCTATGGTCTTAATTCTGCTCTAGCTGGGAAAGGGATTTTGGTTCAGGACCAGGCTTTTCTAAATTTGAAGTCCACTGAACTATTCCAAAAGGGTGCAACTCTTGCAGAACCCTTATCAGGGCTTCCCATTCATGTAACGAGTCACATTTCTTCCATCTCAAATATTTATGTTCATGATGGTGCAATTGGATCAAGATCAAAATGTAATGTGAAAATTCGAATGATAAGTGATGGTCCTTCTTCAATATTAGCATTTTCAAATATTGTATGGGAGACTACAACCCGGGCAATTTCTCACGATTCTTGTCCTCTGACAGTTTATGCTGCTGAATCTATAAGCCCAGGGGTGGGAAATACAATTGGTCTTGGAGCTGGAGGAGATAATGGATTCATAGCTGCTGATATTGAGCGTTCAATGCTGATATTATGTGGAAAAGCTTTCTCAGATACAAATGGAACTAAAGAAACACTTGTTGCTTTATCCGAACCTGTGATATTTGCACGCGGAGGACTTCCTCTTCCTGCAAGGCTTTTAGTTTCTGGTGATTCTGTGGTTTTGTTGTTCGCCCCTGAAGACGTTATTCAGAACTGTGCTGCTTTTCTGGTATCTAAAGATGCTGGTGTTGTTCTTTCCTCCGAAGGTGTCATGCCATTTTTCCGAATAGGGAATACGAATACCAATGGCCCACATATCTTCAAATCACCTTCAGCTATTGTTCTTGTAACTTCTGATGACTCTAGAACTATTCCTTCTGCTTCAAAGCTTTCTCCTGGTCAGGCTGCGTATCACTTTTTGGCTGGGCATCAGAATGGTAAATTTGTGGCAGCATTCCACAAAGGCCCCTCATCTATTGACCCATTGGAACTGGGCAAGGCTTTACTGTGCATGGTGGTGAACTTAAGAGAAGGTACAAAAGCTTTGTAA

Protein sequence

MIAISLARSAFSGPNSSQPFFRLSRHSRSWSSYGLNSALAGKGILVQDQAFLNLKSTELFQKGATLAEPLSGLPIHVTSHISSISNIYVHDGAIGSRSKCNVKIRMISDGPSSILAFSNIVWETTTRAISHDSCPLTVYAAESISPGVGNTIGLGAGGDNGFIAADIERSMLILCGKAFSDTNGTKETLVALSEPVIFARGGLPLPARLLVSGDSVVLLFAPEDVIQNCAAFLVSKDAGVVLSSEGVMPFFRIGNTNTNGPHIFKSPSAIVLVTSDDSRTIPSASKLSPGQAAYHFLAGHQNGKFVAAFHKGPSSIDPLELGKALLCMVVNLREGTKAL
Homology
The following BLAST results are available for this feature:
BLAST of CmaCh02G004550 vs.
Match NameE-valueIdentityDescription
BLAST of CmaCh02G004550 vs.
Match NameE-valueIdentityDescription
InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima (Rimu) v1.1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR008210Phosphoenolpyruvate carboxykinase, N-terminalGENE3D3.40.449.10Phosphoenolpyruvate Carboxykinase, domain 1coord: 67..184
e-value: 4.1E-14
score: 54.6
IPR008210Phosphoenolpyruvate carboxykinase, N-terminalSUPERFAMILY68923PEP carboxykinase N-terminal domaincoord: 77..181
IPR013035Phosphoenolpyruvate carboxykinase, C-terminalGENE3D3.90.228.20coord: 225..315
e-value: 2.4E-8
score: 35.5
IPR001272Phosphoenolpyruvate carboxykinase, ATP-utilisingPANTHERPTHR30031PHOSPHOENOLPYRUVATE CARBOXYKINASE ATPcoord: 27..329
NoneNo IPR availablePANTHERPTHR30031:SF2OS04G0592500 PROTEINcoord: 27..329
NoneNo IPR availableSUPERFAMILY53795PEP carboxykinase-likecoord: 224..326

Relationships

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

Feature NameUnique NameType
CmaCh02G004550.1CmaCh02G004550.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006094 gluconeogenesis
molecular_function GO:0005524 ATP binding
molecular_function GO:0004612 phosphoenolpyruvate carboxykinase (ATP) activity
molecular_function GO:0004611 phosphoenolpyruvate carboxykinase activity
molecular_function GO:0017076 purine nucleotide binding