AT5G15840

Gene Details:

Gene ID: AT5G15840
Gene Symbol: BBX1, CO, FG
Gene Name: B-box domain protein 1, CONSTANS
Description: B-box type zinc finger protein with CCT domain-containing protein;(source:Araport11)
TAIR Accession:
Genome: Araport11_genome_release
Species: Arabidopsis thaliana

Transcripts:

AT5G15840.1 AT5G15840.2

Germplasm Phenotype:

CS175 — late flowering; not later flowering under short days; not affected by vernalization; heterozygotes are intermediate (incompletely dominant); flowering occurs about 16 days later than wild type.
CS176 — late flowering; not later flowering under short days; insensitive to vernalization; heterozygotes are intermediate (incompletely dominant); flowering occurs about 20 days later than wild type.
CS177 — late flowering; not later flowering under short days; not affected by vernalization; heterozygotes are intermediate (incompletely dominant); flowering occurs about 10 days later than wild type.
CS178 — late flowering; not later flowering under short days; not affected by vernalization; heterozygotes are intermediate (incompletely dominant); flowering occurs about 18 days later than wild type.
CS179 — late flowering; not later flowering under short days; not affected by vernalization; heterozygotes are intermediate (incompletely dominant); flowering occurs about 21 days later than wild type.
CS180 — late flowering; not later flowering under short days; not affected by vernalization; heterozygotes are intermediate (incompletely dominant); flowering occurs about 19 days later than wild type.
CS2109728 — Late flowering under long days at 21 Celsius and under short days at 27 Celsius.
CS2109729 — Late flowering under long days at 21 Celsius and under short days at 27 Celsius.
CS2109730 — Early flowering under short days.
CS2109732 — Early flowering under short days.
CS2109735 — early flowering
CS3122 — delayed flowering on long days, relatively insensitive to vernalization with flowering onset slightly earlier on short days.
CS3135 — delayed flowering on long days, relatively insensitive to vernalization with flowering onset slightly earlier on short days, compact habit, short petioles, blunt siliques.
CS3136 — erecta phenotype, veins darker than interveinal tissues, delayed flowering on long days, relatively insensitive to vernalization with flowering onset slightly earlier on short days.
CS3325 — dark green and round rosette leaves, 4.5 m.u. from gl-1; delayed flowering on long days, relatively insensitive to vernalization with flowering onset slightly earlier on short days.
CS3387 — bright green stems and siliques due to reduced wax layer, fully fertile; delayed flowering on long days, relatively insensitive to vernalization with flowering onset slightly earlier on short days; increased plant height; serrated leaves.
CS3432 — double mutant and tetraploid, spontaneous doubling of chromosomes; delayed flowering (ca. 4x), large rosettes with long, wide leaves.
CS3601 — leaves but not cotyledons white/pale; conditional lethal; blocked in the synthesis of the pyrimidine part of vitamin B1; 2,5-dimethyl-4-aminopyrimidine or thiamine restores to normal; late flowering, many leaves rounder, relatively insensitive to vernalization or incandescent light and short days; trichomes absent on stems and leaves; compact and relatively semi-dwarf plants.
CS55 — delayed flowering, relatively insensitive to short days or vernalization, increased number of rosette leaves.
co-9 — Defects in the photoperiod pathway.
co-9 — Flowering time of mutants at 23°C short days and 27°C in short days is not affected compared to wild type.
suf4 co-1 — Slight increase in delay in flowering under LD conditions compared to co-1 single mutant.

Literature:

Sequence:

cDNA Sequence

>AT5G15840.2 AAATAGTAAAAGGTGATACGAAAAAATAGTAACAATTTGCCTGCAACACCATGGCATTATCCGGACCACTTCCTCTTGAGAATCTCAGTATGGCAAGTGGCAAAACCTAAGCAACTTGTGAACGGGTCCCAACGAAGAAGTGCATAGGAGGAGATGTTTACACTTTACACTTTACACTTTACACTTTACACATAGGCCTTCCCAAAAGCTCAACTAGCTGCAAGAGGATCCAATAACATGTAAGAGCCACTAACGCTGTGCCACGTGTAGGCACTCAGGATTCGATCTCCCCTCTACTTATTCTCTCACACCAGATATAAGCTTTATTAGCCCCTTCTTTCAGATACCAGCTCCCACACCATCAAACTTACTACATCTGAGTTATTATGTTGAAACAAGAGAGTAACGACATAGGTAGTGGAGAGAACAACAGGGCACGACCCTGTGACACATGCCGGTCAAACGCCTGCACCGTGTATTGCCATGCAGATTCTGCCTACTTGTGCATGAGCTGTGATGCTCAAGTTCACTCTGCCAATCGCGTTGCTTCCCGCCATAAACGTGTCCGGGTCTGCGAGTCATGTGAGCGTGCTCCGGCTGCTTTTTTGTGTGAGGCAGATGATGCCTCTCTATGCACAGCCTGTGATTCAGAGGTTCATTCTGCAAACCCACTTGCTAGACGCCATCAGCGAGTTCCAATTCTACCAATTTCTGGAAACTCTTTCAGCTCCATGACCACTACTCACCACCAAAGCGAGAAAACAATGACCGATCCAGAGAAGAGACTGGTGGTGGATCAAGAGGAAGGTGAAGAAGGTGATAAGGATGCCAAGGAGGTTGCTTCGTGGCTGTTCCCTAATTCAGACAAAAATAACAATAACCAAAACAATGGGTTATTGTTTAGTGATGAGTATCTAAACCTTGTGGATTACAACTCGAGTATGGACTACAAATTCACAGGTGAATACAGTCAACACCAACAAAACTGCAGCGTACCACAGACGAGCTACGGGGGAGATAGAGTTGTTCCGCTTAAACTTGAAGAATCAAGGGGCCACCAGTGCCATAACCAACAGAATTTTCAGTTCAATATCAAATATGGCTCCTCAGGGACTCACTACAACGACAATGGTTCCATTAACCATAACGTAAGGCTTTTGTATATTTGTTACCCCTTCAATTTAGCATCTTCCCATAACGCAGCAGGGTGAATTCTTTCATCATACACACAAATCCACTGATCCACTGCCAACAGTTGATCTATAGCACATAGAAATTTCACCAGAAGTCTATAATAAAAACAATATATGCTTCCTTTTGCATCGACTCTCTTTAGTCCTCTTACCAGGGGGATTGAGAATGTCTTTGTTTCTGTCATTAGGCATACATTTCATCCATGGAAACTGGTGTTGTGCCGGAGTCAACAGCATGTGTCACAACAGCTTCACACCCAAGAACGCCCAAAGGGACAGTAGAGCAACAACCTGACCCTGCAAGCCAGATGATAACAGTAACACAACTCAGTCCAATGGACAGAGAAGCCAGGGTCCTGAGATACAGAGAGAAGAGGAAGACAAGGAAATTTGAGAAGACAATAAGGTATGCTTCGAGGAAGGCATATGCAGAGATAAGACCGCGGGTCAATGGCCGGTTCGCAAAGAGAGAAATCGAAGCCGAGGAGCAAGGGTTCAACACGATGCTAATGTACAACACAGGATATGGGATTGTTCCTTCATTCTGATACTCCTGTGGCAAAAAGAAAAACTAGATTGCAAGCTGTAAATTACTTTTAGTTTGAGATTATGTTAGGTTTGGTGAAATTCTTAGCTTCAAGAAGTATTACTACTGTTGTGCAAATGGGTTTGTAGTTTTGGCTAATTAAAACTATAGTATTCTTCTTT
>AT5G15840.1 AAATAGTAAAAGGTGATACGAAAAAATAGTAACAATTTGCCTGCAACACCATGGCATTATCCGGACCACTTCCTCTTGAGAATCTCAGTATGGCAAGTGGCAAAACCTAAGCAACTTGTGAACGGGTCCCAACGAAGAAGTGCATAGGAGGAGATGTTTACACTTTACACTTTACACTTTACACTTTACACATAGGCCTTCCCAAAAGCTCAACTAGCTGCAAGAGGATCCAATAACATGTAAGAGCCACTAACGCTGTGCCACGTGTAGGCACTCAGGATTCGATCTCCCCTCTACTTATTCTCTCACACCAGATATAAGCTTTATTAGCCCCTTCTTTCAGATACCAGCTCCCACACCATCAAACTTACTACATCTGAGTTATTATGTTGAAACAAGAGAGTAACGACATAGGTAGTGGAGAGAACAACAGGGCACGACCCTGTGACACATGCCGGTCAAACGCCTGCACCGTGTATTGCCATGCAGATTCTGCCTACTTGTGCATGAGCTGTGATGCTCAAGTTCACTCTGCCAATCGCGTTGCTTCCCGCCATAAACGTGTCCGGGTCTGCGAGTCATGTGAGCGTGCTCCGGCTGCTTTTTTGTGTGAGGCAGATGATGCCTCTCTATGCACAGCCTGTGATTCAGAGGTTCATTCTGCAAACCCACTTGCTAGACGCCATCAGCGAGTTCCAATTCTACCAATTTCTGGAAACTCTTTCAGCTCCATGACCACTACTCACCACCAAAGCGAGAAAACAATGACCGATCCAGAGAAGAGACTGGTGGTGGATCAAGAGGAAGGTGAAGAAGGTGATAAGGATGCCAAGGAGGTTGCTTCGTGGCTGTTCCCTAATTCAGACAAAAATAACAATAACCAAAACAATGGGTTATTGTTTAGTGATGAGTATCTAAACCTTGTGGATTACAACTCGAGTATGGACTACAAATTCACAGGTGAATACAGTCAACACCAACAAAACTGCAGCGTACCACAGACGAGCTACGGGGGAGATAGAGTTGTTCCGCTTAAACTTGAAGAATCAAGGGGCCACCAGTGCCATAACCAACAGAATTTTCAGTTCAATATCAAATATGGCTCCTCAGGGACTCACTACAACGACAATGGTTCCATTAACCATAACGTAAGGCTTTTGTATATTTGTTACCCCTTCAATTTAGCATCTTCCCATAACGCAGCAGGGTGAATTCTTTCATCATACACACAAATCCACTGATCCACTGCCAACAGTTGATCTATAGCACATAGAAATTTCACCAGAAGTCTATAATAAAAACAATATATGCTTCCTTTTGCATCGACTCTCTTTAGTCCTCTTACCAGGGGGATTGAGAATGTCTTTGTTTCTGTCATTAGGCATACATTTCATCCATGGAAACTGGTGTTGTGCCGGAGTCAACAGCATGTGTCACAACAGCTTCACACCCAAGAACGCCCAAAGGGACAGTAGAGCAACAACCTGACCCTGCAAGCCAGATGATAACAGTAACACAACTCAGTCCAATGGACAGAGAAGCCAGGGTCCTGAGATACAGAGAGAAGAGGAAGACAAGGAAATTTGAGAAGACAATAAGGTATGCTTCGAGGAAGGCATATGCAGAGATAAGACCGCGGGTCAATGGCCGGTTCGCAAAGAGAGAAATCGAAGCCGAGGAGCAAGGGTTCAACACGATGCTAATGTACAACACAGGATATGGGATTGTTCCTTCATTCTGATACTCCTGTGGCAAAAAGAAAAACTAGATTGCAAGCTGTAAATTACTTTTAGTTTGAGATTATGTTAGGTTTGGTGAAATTCTTAGCTTCAAGAAGTATTACTACTGTTGTGCAAATGGGTTTGTAGTTTTGGCTAATTAAAACTATAGTATTCTTCTTT

CDS Sequence

Protein Sequence