Spo19372 (gene)

Overview
NameSpo19372
Typegene
OrganismSpinacia oleracea (Spinach)
DescriptionUnknown protein
LocationSuper_scaffold_133 : 1300873 .. 1310606 (+)
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.
ATGTGCAAACCAGTTAGTAGACCAGTAAGTAATTTGGGCCCCCTCCCGGCCTTGGGCCCTAGGCGGTCGCACTCCCCGCCTATGCCTAGGGCCGAGCCTGCGGGTAATGCACGAAGGAAGGCGAGGGCTGGGAAGCGATCAAGACACGCGATGCTTGCTTGCTTGCGGCCGAAGGTAAGGGGCGAGAGGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGTAATTTCTGAAATTTTGAGGGGATCAAGTGAAGGGAGGGATTATATTTATAGGTTCCTAATCCCTAGTGGGCTTAGGTTAGGGTTTTGCATTGGGCTTAGAACTTGGGTTTTAAGTTAGAATTAAAATATCTCTAATGGCTATACCAGGGTATAGTCATCTATTGGTGTACCCCCTCCTAAACAAAATAAAAAAGCTATATAGGCATGTGCTTTCTTTAAAAAAAATTGCATATAAATTTTTCAAAAACCAGAAATCTCTCATTTTTGTTTTCTCTCTCCTCAAAGTTTCTCTCTCCTCAATTTCTCTCTCCCCAAAAGTTTCTCTCTCCTCATTTTTACGTGATTTTTATTTCTCAAGTAACAATGTCAATCGGAAAATCCGCTTGCGTTTGCGCCGCCCTTATCATTCACGACAACGAAGTCGTTGCCACTAGCGTAAACTTCTTTTCTCCTTTTTTTGATGTTAATTTCCTTATTTTTTTGTGATTTTTGATTGAATTGACATGTTGATTAGAAGCATGTCTTTGATAACTCAAAAGATTTTTCCTTTTATGTTATACATTTGTGCGCACATCAATTTTTATGTGATTTAGAAATTTTCTGGTTGAATCTCCATATTCTCTCTCCATTTTCTTGCAAAATTTCTTAAAAAATCGGATCTAGAAATTTTTATGTTCAGATCTAGATTTTTCAAAATGTTCATATTTATATATAGTTATGTTCATTTTGTAAGATTCTGATGTTTATATCATTTTATTATGAAGATTATATACGTAATTATTTATTAAGTTATGGGACTTTATAATGTTCATATTATGAGAATAAAATGTTCATTTTGTTGTGTATAATATTTTATTTTTCTTAAAATTGATTTTGTTAATATGTAAGTGATTTAAAATAAAATCTGGTTGACATCTCAATTTTCTTGCCAACTTCTTTTCCCCAAAAAGATTTAGAATGTTGTTTATTGTTTAGATCTATATTTTTTCGAGGTTCATATATATGATCGAATGCATGATTATGTTCATTTTGTAATATTCAAATGCTTATATATATTCTTATTTATTAAGATTAAAATTGTGTTTGTTGACTAAGTAATGCAACTTAATTAATAATGTTCATTTTTTGAGAATAAAATGTTCCATTATCAAAAAAAATTATGTTCAAATTATTAAAAAGTAAGAGGTGTGATGTTCATTTTCCCAAAATTATGATGTTCACATCTACTTATTATAAAGAATAAACTTATCATGGTTAACTTGATTAAGTTGTGGAACTTAAAAATGTTCATTTTCTGATAATAAAATGTTCATTTTCGGATAATAAAATGTTCATTTTGGGATAATAAAATGTTTATTTTCTGATAATAAAATGTTCATTATCATAAATTTTTATGTTCAAATTATGAAAAAGTAAGAGGTATGATGTTCAATGTATAACTATTTAAGTTCATTTTTTTTATAAGTTCTCTCTTTTTCAAAAACACATTTTCATATTGACTTTAGTAAATAATACATATATAAATTGTGTATATTCATTTTGAGGAAGTGTTATGTTCATTTATAAAATGGTTATGATGTTAATTGTGCTTGATTTATATGATAACAGTTTCAACATGTTAAAATTCATTTTAAGCATGTACATTTATAAGATGTTGAATGTTCGATCAAGTATAAGCACATTTTATATATATATTTTTTTAATCCACATTGATTATTCTTGTATATTATCATTTAAACATTTTGCATGCTCATCATTTTCAAATCAGTAAATGTTCATTTAGTTGTGATCATCATATTAAATTACTTACTTTTTTCATTTTCAGCCTACAACAATGAGGAAATTGAAACCATGAAGGTCAAATATTGTGTTCAAATCACACTTCATAGACACATTCAGAAGTATGAGAACTCAAGACTACATCAAAAGCAAGATTCAAGATTGAAGATATAGAAAAATAAGAGGATGATTTGTACCAACATCTTGTAATTCAACTACAATTTTACATAGGCAATGGCTAAAATGTTCATTTTTTGGTAAAATATGTTGTTTGACATGATTTCATTGCACCTTATATGTAAATATAATGCTCAATGTAATAACATAGTAATACATTAACTACGTTCATTTGAAAATTAGTAAATACTCATACCACAATCAATAATATTCATTTCTAAATTAGTTGAACAAATGAAGATTTCCAAATAATTAGATAAATGTTCATCTTTGAAAGAGTAAATAAATGTTCATTTCCAAATAAATAAATGTTCATTTCTAAATAGTCAATGTTCATTTCCAAAATAGTAAATGTTCATTTCCAAATAAATAAATAAATGTTCATTTCCAAAATGATAAATGTTCATTTTTATACCAGTATATTAATGTTCATTTTAAACAACACAAAACGGCGTCGTTTTGGATGGGGTACAACCAGCTCTGGCTGTACACGGGTACATCCAAAAATTTATGAGAATTAAATACTTAAAAGCTTTGTTGGGTTCACCAACTGAATTGGGATTGGGCTCGGAATTTAATTTAAATAGTTTTGAAATACGACCCAATAAATTCCCGACTTAAATAATAAAATAATAAATTCGTTTAATTTATTTCGGAATCAAATAAAAATAATAAATATTTTATTTAATTAAAACCACATTTAAATACATATTAAATGCAATTTAAATTCTGAAAATCGTAAAACACTTTATAAATACATTAAAATATATTTATAAATTCAGAAAAATACGAGCTATTATAGTCCATGCCGCAACAACTGTGCGGCTTGCCATGGTCCACGCCGCAAAAGCTGCACGACTCTGTTTAAAAAATAATAATAACTAAAAATCGTACCTTCTCCTTTGCAAAACACGCTTTTCCTCTGCCCTGCTTCTCCGTTTCTCCCTCCTCCTTCACAATTGCTTCTCTTTCTTCCGCCGCGCAACACCAAGGGTGGTCGGCGGTTTTGCAAGACTCAAGGCCAAGGCGTTTCTTTTGAAGGGAGGGTGGTCGACGGTTTTGTGCGGGTCAAGACAATGGCACAAACCAAGGGGCTAGGAGGGGGTGAAGGGGAGAGGTGATCGAAGGGGGGGGGGGTTGATTTCATTAAAGGGAATTTGGGTTCTTTCACCATAAATAGGCAAGCGATTTTAGTCAATGCGGACGTCGATTAAAAACACCATTTTATACTATTCTTGTGCGAGTATTAGATTAAATCAAGTTAACATACCAAAACCCTTATTATAATGCCGTTTTGGTATAAACCCAACAGAAAGTGGCAAAAATAGCACTCCGTAATAGGAATTGCAATGTGGTGTAAAATGTACTGTATTATTTGACAACCTGCTTTTCAAAAGATAATTAACAAAGTCCCTATCAAAAGGCAGTAAGTAATAAAAAATTATATTTCAGCTATTGACATCAAACTAAACTCGATATTTCAATGTATACCCGCTAAATTAAAGGCATTCTCTCGTTTAAAAGTGGTATAGTTGCATACTTCAAATTGGTGGCGGTGCCAAGAATTTTTCGTTAAGGGTTCGAATTTTTTTTAAAAAACAAAAAATACTTAATTGATACCGTTAATAAAAATAATAAGAAATAATCAAATATCACTGTCCTAATTGCTTACAGCCATAATATTGGGTGCGAATGTGTTGTTAGTGCAAATTTACAGTTACAATTTATTAGGAAATACACCTAGGCGTTTTTAGATAACACTTGCTTTTATTTATTTTGTGACGAGAAATAAGAAAATGAGATGCAATCTCGAAGCCTTGACCAACCACCAACTTAATTCAAACTAAAATTAATAAGTAAACTAAAGAAACATACACTTAACAATACAGAAAGGAAATAAGTTATGCATGAATCGATCCCGCATCCAGTTGGAATCATAGTGCAACTTAGACCACCGTTGAGGAATTCATGTTTTCTATTTATAAATATAATTAAGATGACTTCGCTTCTGCCGGCTGCTTCAGTCGTTCAACAAGTGATGCTCATTCTCCTAGAAGATATTCTCTACGGATTGAACTGCTTTCGGATTTTCGATCGCCTAATTCAATAGCTCAAAAATAGGTGAAGTTCGCGCCTCCCTTTTCATTTGAGTTCATTGTGCCTATAATTCCTAATAACTTAATTTTATTTTTCTTTTTTTATACGAATAATATTTTTTAAACCTAATCGGGGTTAAGTCGGTACTGCCACTACTTCAAACACTACTTAAATGAATTCCAACATGTCACAACACCATAACATGAGGAACCAATCATAGAAGTACATGATTAAATATGACTACACCTTTATTAGTAACCTAGATTGATACTCCCTCCGTATTTTTTTAAGGGATACACTTGCCTTTTCCGGCCGTATTTATTTAAGAGATACACTTGCCATTTTTAGTAACTTATCAACCCCACCATCTAATTAAATAATACATCTAATATACCCTATCACCCACCATCCTATTAAACAAATATTTTCATAAACTCACCCCACCCTCCACCCACCAAAATGACATGGTCCCCACATATTTAATTATTAAAATATCTATCCAACCCCACTTGCTTTATTATTTTATTTCATTCAATTATTCTTCTTAATACCCGTGTCCGGACAAGTGTATCTCTTAAAAAAATACGGAGGGATTAGAAAATAAAACTTACCTAGATTTTTAAGTACATTATTATTTTTGGGGAGGTGGAAGGTTGGAGGTGGCAAATGATTTTTAATTTTTAAATTTCTTTTTTTCTAGTTGGTAAAGTGAGAGTAGGACAGACAAATTGTGACATGAATTAATCACCAAAGAAAAAGACAACTTTTTTCCTTAAAAAAAAAGACAATTTTTATAACAAAAAAAACGGGACAATTTAATTTTCAATTGGCAAAGTTAATTTTCCATTGCCAAAAAGGGTAAATTAGTCAATGCAGAAAATTCCCAATTTCAAATTTAACAAAAACAAAAAAAAAACTAAAGTTTTCTATTTCTGACATTGCTAAGTCAGAACAGAATCGAACTCTCTTTTTCTTCTTCATTTTCTCTTTGCTTTGATCAAACAGAAAAAAGGGAAATTAAAAAAAAAGGAGGAGAAAAATAAAGGAAAAGAAAACAACAGAGAAGAATCATTTGTTTGCAGCAGCCAGCAGCTCCCTTGTTCTTCATACTTCTGCAAGTGTACTTTCTCTCTCCTCAATTTTTTTCGATTTTGTATTTTATTTTTATTTTTGGGGTTTTACCCAAATCAAATCAAAACCCTAAATTCAGGAAAAAGAAACAATCTTTTTTAATTTATTTTTATTTTTGTAGTTATATCCCCACTTGCCTTAAATCATGGGATCAATGTTTCAAACATAAATTTAACTTGTTCCCGTTTCAGGACACCCTTTAAAGATTTTAATTTCATGCAACTTTTGTTTAATTTTTCAAATTTTAATTTTAATTAATGGGTTATTTTTGATCGATTAATTTTGTTCTTGTTTTAGGTGTTGGTGTACTACTGACAGCAGAGCAATTACTGAGAATTTCATAGTATTCATTGATTGAGGTATTTTTTTCTTCTTCTTTGATTTCTCTCTTTAATGTCAATTTTCTTGCATGGGTATAGATTTGCATGTTACTTTGTTGGATGATACTTTCAAATTTCAGACCTATTGTTTTGGTATCTTGTTTGTTGGTAAACTTGAATTTCTTGCAATTTTTGGTGAGTCGAAATCGAAAAAAACTGTCATTTTTTTTTGTTTAATCACTTTTAACACTGTATATGAGTAGGCACTTGAAAACCCAGAAATTAAATTGATGTTTTGCTGGTCAATTAATTCAATTGCTTCCATTATATTTCCTATTTTTCGGCTGTTCCGATATTTCTCCCCTTGTTTTCTCTTGCAAGTTAAAGTTAATTTAGCTCCTGCGTTGAATTATTCTGTTGATTATGTTCCCTTTTCCCCTCATGTTTGATGCTCAACAAACATGTTTAACTATGTGTGAGCAGGGATGTTGTTTTTGGACCACCTATTATAAGATGTCCAAAATTTCCAAACCGTTGTTGTCTCTATCTTTCTATGCAACTGGTTTCGACAAATTTTCGTTTGTATTTTTGGCTTCACCTCGTGTATGCGGAGTGATTATTTTTCTTTATTTTTATGTCTGTAGTTATGTATATGTGACCGAATTGGTATGCTTCCACATTATCTCTCACGTCTAGCATAGTAGCATATTAGTTAAACTTAATTATTGTCCACTAAAATTATATATACTGTTTCATTTTGCTGCTTCCGAATTCGGAACTCAAAAAGAAAACTTAGGAAGTGGATACATCTTCAGAAACAACCTAGGTTCTTTATAGGTTAGTCAGGGTACATATCGGTTGAATATCTTGAGGAAATGTTGACTACAGTTACACATAGACATGTAATTCAGGAAGTCACAAAGAACGCACTATCATTTTAAGAAAAGTGAGACTATAACTTTTTGAGCATGGTTTTAATTGTAAAATTGCATTTTTAGATATTTTGGGAAGCAGAATGGTGAACAAATGAGCTTATAGTCAAAGCAAAGTTTTAACTTTGCTTTAATTTGGACATGGGTGAGTAATTAATTTCATACTATCAGTTCCGACTTCTGAGAAAGGTCGTTGCATACTTGCTGCAGTATTGCTTCTTTTGGGATGGGGGTAGTGCCATAGAAAAAAAACGCGGATGCGGTCGCGTTCGCGGTAAAGGTCGCGTTGTCGCGGAAACCGCTTGTAACGGAAGAATGAACGGATCGCGGCTGACGCGGTGTGAATTTTTTGAAAAAAACCACATTAACATATCTAAGCCTTATTATTACATTTTTAGTCTAAAAAGTATTATATCAACACAATATAACCAAATCTTTCCTAATATAAGTGAGTATTATATTTTGTGAACAAATAAACACACGAAATATCATGTTTCATAAACTACATAACTAATTACAAAAATATTTTTGGTCAATTTATGTAAAGAAACGGTGTAACGGAGAAAAAAACGTCTAACGCGGCGAGTCACCGTTACGTAACGGACGACGCGGGGAGAAAGACGTGAATTTTGTCAAACCGTAACGTAACGGGTTTTCGCGGAACGGCAAATCCAAAATAGGTTACAGAACGGCCGTTATGTAACGGAACGGCCGAGTTTTAATTCCATGGGTAGTGCACAAGCTTGTTGCGAGTAGTAACTCATGTTGACATTTGAGGTTTTAAAAAGTTGCATTAGATAAGTACCTTTAGGGAAATAAGATCTTGGACTATGCAAGGTTATTTATTTGCCTATGTTTTCCATGGATCATAGGCTTGTAGCAAATAGAGTCCCTTTTTTCGGGAGGGTAGGGGATTGGCACTGAATGGGGGTGCCCCAGTGCCGTATACGGTAAAGCATGCAATTGATACACTTGCTGAAAAAGCTTCATTTGGCTATTTTCAAATATCCTAGTTGAAGATGCCTTGTGGAAATTTGACGATTTTCTTATGATTTTACCCTGTAACTCAAAATTTTATGGCATCTAAATGCAACTCTTTCTGAATGGAGAGTTATGCAGTCAACCAAAAATAAAATTGTGAAATACTGTAGACTCGTGGACAGGATGCGAAAGTGTGATATTTTTGGCTTACATGATATTTGAGGTGGTTTGCTAGGGGTCAAAGTTTACCGTGTTTTGATTGTATGTAGGGGGTGGGGGGTATGTTAGCCATACACCGATACTCGGGGTATGCTCTTTGCTACTGGCTCTGTTGTGAAGATATCGTATTCATATTTTTTTTTTTTGTGATTACTCCTATTCTCATGGTGACTAGCTATGTTACTCCGTCTCTTCAATTTTTCTCAAGTATATGTGTCGGATACTGGACACTCAGATGCGGTGGGTATGGCACTTAGAAACTTAATTTTGAACCAAGATCATGTAAAGTTTTCAGAAAATTGTAGTGTCTGACATTCAGACACATATCCATAACCGATACTTTCAGCTGATTCCAAATTACATAGGTTACTGGATCTGGCTGATTTCTGGTGACCTAATTACTCGACAAATTTATGGACTTTTGGATTTTGTTGATCTTCAACTCTCTATATCTTTATGCTATTAGGGTCCACAAACATTTACATTGGGTATTCTTGAGGATCCTGACACTCTTATGAAGATTTTCCTTTAGAAAATCTCCAAAGCATTGTTCTTAGGAGGAGGTGATGATGTTTGATGCCAAAATCCTGAATAAAATTTAAAGCCGATCAAATGTGTTTTCCTTTGTTTATGTATTAAATGTCTCTTTTCCTTCTAACCATCTTACGATGCCTACTCTCTCCTAGTTGGAAATTGAGGTATCCAGATGTGATTGTGGAGATGCTTTAAACAGGGGTTTCGGACCACCTAACTTTCTCATTGGTGTTTCTTAATTGTCTCTTTATAGATCTGAGGCATTTAGAGTAGGATGGTAAGATTATTATTGTTGTTACGGAGTAGTTAGCAGGAAATATAGCATTCTCTTGAAGACATAGTGAAGGCAATAAGTGTTAACTAGAGCTAGGAAATTGATAAGTGAACCCATATGCTTGTGGATTGTTATATGGCGTTTTCATAAGTGAATGTTCTTATTGGGGTTCATTATTGTCATTACTGCTAGTTTGCTGGATTTGTTGCATTCATTCACGAGATGTCACTGGATTAGAGACTTAGAGTTGCTTCTAGATCAAGGCAATGTAAGAAGTTTGATGGTAATCATAAGTTTATAATACCTGTTGTTCATTACCCCAAGCTTGTTTGCTAGCTCGCCGT

mRNA sequence

ATGTGCAAACCAGTTAGTAGACCAGTAAGTAATTTGGGCCCCCTCCCGGCCTTGGGCCCTAGGCGGTCGCACTCCCCGCCTATGCCTAGGGCCGAGCCTGCGGGTAATGCACGAAGGAAGGCGAGGGCTGGGAAGCGATCAAGACACGCGATGCTTGCTTGCTTGCGGCCGAAGAAAAAAGGGAAATTAAAAAAAAAGGAGGAGAAAAATAAAGGAAAAGAAAACAACAGAGAAGAATCATTTGTTTGCAGCAGCCAGCAGCTCCCTTGTTCTTCATACTTCTGCAAGTGTGTTGGTGTACTACTGACAGCAGAGCAATTACTGAGAATTTCATAGTATTCATTGATTGAGTTTGCTGGATTTGTTGCATTCATTCACGAGATGTCACTGGATTAGAGACTTAGAGTTGCTTCTAGATCAAGGCAATGTAAGAAGTTTGATGGTAATCATAAGTTTATAATACCTGTTGTTCATTACCCCAAGCTTGTTTGCTAGCTCGCCGT

Coding sequence (CDS)

ATGTGCAAACCAGTTAGTAGACCAGTAAGTAATTTGGGCCCCCTCCCGGCCTTGGGCCCTAGGCGGTCGCACTCCCCGCCTATGCCTAGGGCCGAGCCTGCGGGTAATGCACGAAGGAAGGCGAGGGCTGGGAAGCGATCAAGACACGCGATGCTTGCTTGCTTGCGGCCGAAGAAAAAAGGGAAATTAAAAAAAAAGGAGGAGAAAAATAAAGGAAAAGAAAACAACAGAGAAGAATCATTTGTTTGCAGCAGCCAGCAGCTCCCTTGTTCTTCATACTTCTGCAAGTGTGTTGGTGTACTACTGACAGCAGAGCAATTACTGAGAATTTCATAG

Protein sequence

MCKPVSRPVSNLGPLPALGPRRSHSPPMPRAEPAGNARRKARAGKRSRHAMLACLRPKKKGKLKKKEEKNKGKENNREESFVCSSQQLPCSSYFCKCVGVLLTAEQLLRIS
Relationships

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

Feature NameUnique NameType
Spo19372.1Spo19372.1mRNA


Homology
The following BLAST results are available for this feature:
BLAST of Spo19372.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 0
Match NameE-valueIdentityDescription
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BLAST of Spo19372.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 0
Match NameE-valueIdentityDescription
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BLAST of Spo19372.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 0
Match NameE-valueIdentityDescription
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BLAST of Spo19372.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 0
Match NameE-valueIdentityDescription
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GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006468 protein phosphorylation
biological_process GO:0045893 positive regulation of transcription, DNA-templated
biological_process GO:0009069 serine family amino acid metabolic process
biological_process GO:0006635 fatty acid beta-oxidation
biological_process GO:0016567 protein ubiquitination
biological_process GO:0006621 protein retention in ER lumen
biological_process GO:0005975 carbohydrate metabolic process
biological_process GO:0044262 cellular carbohydrate metabolic process
biological_process GO:0009231 riboflavin biosynthetic process
biological_process GO:0010103 stomatal complex morphogenesis
biological_process GO:0019252 starch biosynthetic process
biological_process GO:0000023 maltose metabolic process
biological_process GO:0009738 abscisic acid-activated signaling pathway
biological_process GO:0019288 isopentenyl diphosphate biosynthetic process, methylerythritol 4-phosphate pathway
biological_process GO:0044260 cellular macromolecule metabolic process
biological_process GO:0006465 signal peptide processing
biological_process GO:0006508 proteolysis
biological_process GO:0006979 response to oxidative stress
biological_process GO:0006769 nicotinamide metabolic process
biological_process GO:0046497 nicotinate nucleotide metabolic process
biological_process GO:0009395 phospholipid catabolic process
biological_process GO:0010228 vegetative to reproductive phase transition of meristem
biological_process GO:0010286 heat acclimation
biological_process GO:0016036 cellular response to phosphate starvation
biological_process GO:0090503 RNA phosphodiester bond hydrolysis, exonucleolytic
biological_process GO:0010351 lithium ion transport
biological_process GO:0055114 oxidation-reduction process
biological_process GO:0006464 cellular protein modification process
biological_process GO:0045454 cell redox homeostasis
biological_process GO:0009094 L-phenylalanine biosynthetic process
biological_process GO:0006470 protein dephosphorylation
biological_process GO:0006432 phenylalanyl-tRNA aminoacylation
biological_process GO:0000162 tryptophan biosynthetic process
biological_process GO:0006623 protein targeting to vacuole
biological_process GO:0016558 protein import into peroxisome matrix
biological_process GO:0006869 lipid transport
biological_process GO:0042631 cellular response to water deprivation
biological_process GO:0006891 intra-Golgi vesicle-mediated transport
biological_process GO:0016197 endosomal transport
biological_process GO:0007020 microtubule nucleation
biological_process GO:0006571 tyrosine biosynthetic process
biological_process GO:0010118 stomatal movement
biological_process GO:0007584 response to nutrient
biological_process GO:0010107 potassium ion import
biological_process GO:0019375 galactolipid biosynthetic process
biological_process GO:0000911 cytokinesis by cell plate formation
biological_process GO:0007033 vacuole organization
biological_process GO:0046486 glycerolipid metabolic process
biological_process GO:0006355 regulation of transcription, DNA-templated
biological_process GO:0055085 transmembrane transport
biological_process GO:0009723 response to ethylene
biological_process GO:0006007 glucose catabolic process
biological_process GO:0048193 Golgi vesicle transport
biological_process GO:0010363 regulation of plant-type hypersensitive response
biological_process GO:0006612 protein targeting to membrane
biological_process GO:0009963 positive regulation of flavonoid biosynthetic process
biological_process GO:0006810 transport
biological_process GO:1902600 proton transmembrane transport
biological_process GO:0006570 tyrosine metabolic process
biological_process GO:0009749 response to glucose
biological_process GO:0009733 response to auxin
biological_process GO:0009737 response to abscisic acid
biological_process GO:0035335 peptidyl-tyrosine dephosphorylation
biological_process GO:0043407 negative regulation of MAP kinase activity
biological_process GO:0009755 hormone-mediated signaling pathway
biological_process GO:0009987 cellular process
biological_process GO:0016043 cellular component organization
biological_process GO:0008152 metabolic process
biological_process GO:0009750 response to fructose
biological_process GO:0030244 cellulose biosynthetic process
biological_process GO:0009744 response to sucrose
biological_process GO:0019722 calcium-mediated signaling
biological_process GO:0007030 Golgi organization
biological_process GO:0000902 cell morphogenesis
biological_process GO:0016049 cell growth
biological_process GO:0016310 phosphorylation
biological_process GO:0007205 protein kinase C-activating G-protein coupled receptor signaling pathway
biological_process GO:0048767 root hair elongation
biological_process GO:0006598 polyamine catabolic process
biological_process GO:0042398 cellular modified amino acid biosynthetic process
biological_process GO:0007267 cell-cell signaling
biological_process GO:0009698 phenylpropanoid metabolic process
biological_process GO:0030091 protein repair
cellular_component GO:0048046 apoplast
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0044464 cell part
cellular_component GO:0009570 chloroplast stroma
cellular_component GO:0005737 cytoplasm
cellular_component GO:0009507 chloroplast
cellular_component GO:0016471 vacuolar proton-transporting V-type ATPase complex
cellular_component GO:0005802 trans-Golgi network
cellular_component GO:0031902 late endosome membrane
cellular_component GO:0005795 Golgi stack
cellular_component GO:0005634 nucleus
cellular_component GO:0005783 endoplasmic reticulum
cellular_component GO:0005829 cytosol
cellular_component GO:0005794 Golgi apparatus
cellular_component GO:0005886 plasma membrane
cellular_component GO:0005789 endoplasmic reticulum membrane
cellular_component GO:0005787 signal peptidase complex
cellular_component GO:0009536 plastid
cellular_component GO:0016020 membrane
cellular_component GO:0005622 intracellular
cellular_component GO:0009328 phenylalanine-tRNA ligase complex
cellular_component GO:0005777 peroxisome
cellular_component GO:0009506 plasmodesma
cellular_component GO:0005739 mitochondrion
molecular_function GO:0004842 ubiquitin-protein transferase activity
molecular_function GO:0008113 peptide-methionine (S)-S-oxide reductase activity
molecular_function GO:0042626 ATPase activity, coupled to transmembrane movement of substances
molecular_function GO:0004143 diacylglycerol kinase activity
molecular_function GO:0000049 tRNA binding
molecular_function GO:0003951 NAD+ kinase activity
molecular_function GO:0016881 acid-amino acid ligase activity
molecular_function GO:0004826 phenylalanine-tRNA ligase activity
molecular_function GO:0003935 GTP cyclohydrolase II activity
molecular_function GO:0008430 selenium binding
molecular_function GO:0003723 RNA binding
molecular_function GO:0004672 protein kinase activity
molecular_function GO:0031072 heat shock protein binding
molecular_function GO:0051082 unfolded protein binding
molecular_function GO:0004725 protein tyrosine phosphatase activity
molecular_function GO:0008138 protein tyrosine/serine/threonine phosphatase activity
molecular_function GO:0005215 transporter activity
molecular_function GO:0016866 intramolecular transferase activity
molecular_function GO:0005179 hormone activity
molecular_function GO:0004871 obsolete signal transducer activity
molecular_function GO:0046872 metal ion binding
molecular_function GO:0004535 poly(A)-specific ribonuclease activity
molecular_function GO:0016740 transferase activity
molecular_function GO:0004721 phosphoprotein phosphatase activity
molecular_function GO:0008233 peptidase activity
molecular_function GO:0008686 3,4-dihydroxy-2-butanone-4-phosphate synthase activity
molecular_function GO:0005525 GTP binding
molecular_function GO:0005524 ATP binding
molecular_function GO:0046923 ER retention sequence binding
molecular_function GO:0008270 zinc ion binding
molecular_function GO:0016853 isomerase activity
molecular_function GO:0004674 protein serine/threonine kinase activity
molecular_function GO:0005515 protein binding
molecular_function GO:0005267 potassium channel activity
molecular_function GO:0005484 SNAP receptor activity
molecular_function GO:0005483 soluble NSF attachment protein activity
molecular_function GO:0008375 acetylglucosaminyltransferase activity
RNA-Seq Expression
   



Co-expression
Gener valueExpression
Spo154610.77Barchart | Table
Spo137830.74Barchart | Table
Spo089350.74Barchart | Table
Spo086030.73Barchart | Table
Spo256330.72Barchart | Table
Spo093810.72Barchart | Table
Spo243250.71Barchart | Table
Spo251710.71Barchart | Table
Spo096710.71Barchart | Table
Spo273640.70Barchart | Table
Spo270810.70Barchart | Table
Spo060040.70Barchart | Table
Spo133930.70Barchart | Table
Spo094990.69Barchart | Table
Spo093870.69Barchart | Table
Spo074150.69Barchart | Table
Spo010680.69Barchart | Table
Spo266970.69Barchart | Table
Spo254830.69Barchart | Table
Spo015100.69Barchart | Table
Spo019250.69Barchart | Table
Spo211440.69Barchart | Table
Spo176120.69Barchart | Table
Spo158730.69Barchart | Table
Spo139630.69Barchart | Table
Spo061640.69Barchart | Table
Spo113640.69Barchart | Table
Spo096050.69Barchart | Table
Spo282650.68Barchart | Table
Spo010540.68Barchart | Table
Spo052350.68Barchart | Table
Spo054020.68Barchart | Table
Spo108640.68Barchart | Table
Spo115240.68Barchart | Table
Spo146300.68Barchart | Table
Spo146670.68Barchart | Table
Spo185780.68Barchart | Table
Spo217310.68Barchart | Table
Spo229550.68Barchart | Table
Spo263550.68Barchart | Table
Spo268580.68Barchart | Table
Spo057790.67Barchart | Table
Spo198980.67Barchart | Table
Spo056660.67Barchart | Table
Spo085210.67Barchart | Table
Spo142250.67Barchart | Table
Spo145370.67Barchart | Table
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