AT5G07990

Gene Details

Gene ID: AT5G07990
Gene Symbol: CYP75B1, D501, TT7
Gene Name: CYTOCHROME P450 75B1, TRANSPARENT TESTA 7
Description: Cytochrome P450 superfamily protein;(source:Araport11)
TAIR Accession: locus:2142878
Genome: Araport11_genome_release
Species: Arabidopsis thaliana

Functional Descriptions

PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)

GO:0016711 — enables — flavonoid 3-monooxygenase activity GO:0016711 2366 F catalytic activity IDA none Publication:501681756|PMID:11030432 TIGR 2003-04-17 AT5G07990 locus:2142878 AT5G07990 enables heme binding GO:0020037 9668 F other binding IEA none InterPro:IPR001128|InterPro:IPR002401|InterPro:IPR036396 AnalysisReference:501756966 2023-06-11 AT5G07990 locus:2142878 AT5G07990 enables oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, NAD(P)H as one donor, and incorporation of one atom of oxygen GO:0016709 3497 F catalytic activity IBA none PANTHER:PTN001210282|UniProtKB:Q6Z5I7|TAIR:locus:2099714|UniProtKB:Q9FLC8|UniProtKB:Q69X58|TAIR:locus:2032890|TAIR:locus:2142878|UniProtKB:Q6YTF5|UniProtKB:Q6YTF1|TAIR:locus:2032865 Communication:501741973 2023-06-07 AT5G07990 gene:2142877 AT5G07990.1 located in extracellular region GO:0005576 294 C extracellular region ISM predicted protein features AnalysisReference:501780126 rkaundal 2018-08-31 AT5G07990 locus:2142878 AT5G07990 is active in membrane GO:0016020 453 C other membranes IBA none PANTHER:PTN001210282|TAIR:locus:2099714 Communication:501741973 2021-09-10 AT5G07990 locus:2142878 AT5G07990 involved in flavonoid biosynthetic process GO:0009813 5785 P biosynthetic process IEA none UniPathway:UPA00154 AnalysisReference:501757242 2023-05-23 AT5G07990 locus:2142878 AT5G07990 acts upstream of or within response to UV GO:0009411 4960 P response to light stimulus IEP none NONE Publication:501681756|PMID:11030432 TIGR 2003-04-17 AT5G07990 locus:2142878 AT5G07990 involved in flavonoid biosynthetic process GO:0009813 5785 P other metabolic processes IEA none UniPathway:UPA00154 AnalysisReference:501757242 2023-05-23 AT5G07990 locus:2142878 AT5G07990 enables flavonoid 3-monooxygenase activity
GO:0009813 — acts upstream of or within — flavonoid biosynthetic process
GO:0009733 — acts upstream of or within — response to auxin
GO:0005506 — enables — iron ion binding

CS2105578 — pale brown seeds due to reduced levels of brown pigment in seed coat (testa); reduced levels of anthocyanins in leaves, stems and other tissues; deficient in flavonoid 3-hydroxylase activity and lacks orthodihydroxy flavonoids, thus accumulating pelargonidin rather than the cyanidin found in wild type plants. AT5G07990 CS6509 Faster completion of seed germination at low temperature (10C) compared to wild type; transparent testa phenotype (pale brown seeds due to reduced levels of brown pigment in seed coat), allelic to tt7-3; hypersensitive to abscicic acid, gibberellic acid and paclobutrazol AT5G07990 CS8586 double mutant; disruption of the synthesis of brown pigment in seed coat (testa); yellow seeds. AT5G07990 CS8587 double mutant; disruption of the synthesis of brown pigment in seed coat (testa); yellow seeds. AT5G07990 CS8591 double mutant; disruption of the synthesis of brown pigment in seed coat (testa). AT5G07990 CS8592 double mutant; disruption of the synthesis of brown pigment in seed coat (testa); yellow seeds. AT5G07990 CS8595 double mutant; disruption of the synthesis of brown pigment in seed coat (testa); yellow seeds. AT5G07990 CS8599 double mutant; altered phenylpropanoid metabolism; disruption of the synthesis of brown pigment in seed coat (testa), pale brown seeds. AT5G07990 CS88 pale brown seeds due to reduced levels of brown pigment in seed coat (testa); reduced levels of anthocyanins in leaves, stems and other tissues; deficient in flavonoid 3-hydroxylase activity and lacks orthodihydroxy flavonoids, thus accumulating pelargonidin rather than the cyanidin found in wild type plants.

Functional Keywords

Literature and News

Gene Resources

Sequences

cDNA Sequence

>AT5G07990.1
CCTAGCCAAGACATACATATAGTTTTGATTGACAAAAAAAAAAAAACTCCTCTATTTATAGCTTGTGTTTTGTTTCCTCATTTTTCACTTACCATTCAAACCCAACACTATGGCAACTCTATTTCTCACAATCCTCCTAGCCACTGTCCTCTTCCTCATCCTCCGTATCTTCTCTCACCGTCGCAACCGCAGCCACAACAACCGTCTTCCACCGGGGCCAAACCCATGGCCCATCATCGGAAACCTCCCTCACATGGGCACTAAGCCTCATCGAACCCTTTCCGCCATGGTTACTACTTACGGCCCTATCCTCCACCTCCGACTAGGGTTCGTAGACGTCGTGGTCGCCGCTTCTAAATCCGTGGCCGAGCAGTTCTTGAAAATACACGACGCCAATTTCGCTAGCCGACCACCAAACTCAGGAGCTAAACACATGGCATATAACTATCAAGATCTTGTCTTTGCACCTTACGGACACCGATGGAGACTGTTGAGAAAGATTAGTTCTGTTCATCTATTTTCAGCTAAAGCTCTCGAAGATTTCAAACATGTTCGACAGGAAGAGGTTGGAACGCTAACGCGGGAGCTAGTGCGTGTTGGCACGAAACCCGTGAATTTAGGCCAGTTGGTGAACATGTGTGTAGTCAACGCTCTAGGACGAGAGATGATCGGACGGCGATTGTTCGGCGCCGACGCCGATCATAAAGCTGACGAGTTTCGATCAATGGTGACGGAAATGATGGCTCTCGCCGGAGTATTCAACATCGGAGACTTCGTGCCGTCACTTGATTGGTTAGATTTACAAGGCGTCGCTGGTAAAATGAAACGGCTTCACAAGAGATTCGACGCTTTTCTATCGTCGATTTTGAAAGAGCACGAAATGAACGGTCAAGATCAAAAGCATACAGATATGCTTAGCACTTTAATCTCCCTTAAAGGAACTGATCTTGACGGTGACGGAGGAAGCTTAACGGATACTGAGATTAAAGCCTTGCTATTGAACATGTTCACAGCTGGAACTGACACGTCAGCAAGTACGGTGGACTGGGCTATAGCTGAACTTATCCGTCACCCGGATATAATGGTTAAAGCCCAAGAAGAACTTGATATTGTTGTGGGCCGTGACAGGCCTGTTAATGAATCAGACATCGCTCAGCTTCCTTACCTTCAGGCGGTTATCAAAGAGAATTTCAGGCTTCATCCACCAACACCACTCTCGTTACCACACATCGCGTCAGAGAGCTGTGAGATCAACGGCTACCATATCCCGAAAGGATCGACTCTATTGACGAACATATGGGCCATAGCCCGTGACCCGGATCAATGGTCCGACCCGTTAGCATTTAAACCCGAGAGATTCTTACCCGGTGGTGAAAAATCCGGCGTTGATGTGAAAGGAAGCGATTTCGAGCTAATACCGTTCGGAGCTGGGAGGAGAATCTGTGCCGGTTTAAGTTTAGGGTTACGTACGATTCAGTTTCTTACGGCGACGTTGGTTCAAGGATTTGATTGGGAATTAGCTGGAGGAGTTACGCCGGAGAAGCTGAATATGGAGGAGAGTTATGGGCTTACACTGCAAAGAGCGGTTCCTTTGGTGGTACATCCTAAGCCAAGGTTGGCTCCGAACGTTTATGGACTCGGGTCGGGTTAAAATTTAACTTTGCTTCTTGGACAAGGTATATGGCTTGCACGAAAATAAAGTTTTAAAACAGCGTAGTTTGATCCGGAGTTAGCTTTATGTAAGAACGTGTAACGCCAAATCAAGTCATTATTAAATATTGTGAGTTGTTTGTAACCTATATATAAATCTTGAAGAGGAAGATTTCAGAAATCTTGAATATGTTTTAGGAAAAACATTGTTTTTTTTACAGTAGCGCAAGTTGAATTAAAACCTATTCCTTACAGAACCAAATGCATTAATAATTCTAG

CDS Sequence

Protein Sequence