AT1G03430

Gene Details

Gene ID: AT1G03430
Gene Symbol: AHP5
Gene Name: histidine-containing phosphotransfer factor 5
Description: histidine-containing phosphotransfer factor 5;(source:Araport11)
TAIR Accession: locus:2020868
Genome: Araport11_genome_release
Species: Arabidopsis thaliana

Functional Descriptions

PO:0000013 — cauline leaf — hoja caulinar (Spanish, exact), 茎生葉、茎葉 (Japanese, exact)
PO:0000230 — inflorescence meristem — meristema de la inflorescencia (Spanish, exact), 花序分裂組織 (Japanese, exact)
PO:0009010 — seed — semilla (Spanish, exact), 種子 (Japanese, exact), pyrene (narrow), diaspore (broad)
PO:0009030 — carpel — carpelo (Spanish, exact), 心皮 (Japanese, exact), Poaceae carpel (narrow), Zea carpel (narrow), pistil (broad)
PO:0009032 — petal — pétalo (Spanish, exact), 花弁 (Japanese, exact)
PO:0009047 — stem — caña (Spanish, exact), culm (exact), eje primario (Spanish, exact), primary axis (exact), primary stem (exact), tallo (Spanish, exact), tronco (Spanish, exact), 茎 (Japanese, exact), bole (narrow), cane (narrow), caudex (narrow), caudices (narrow), core (narrow), primocane (narrow), scape (narrow), stalk (narrow), trunk (narrow)
PO:0025281 — pollen — polen (Spanish, exact), pollen grain (exact), 花粉 (Japanese, exact)
PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)

GO:0009927 — enables — histidine phosphotransfer kinase activity
GO:0043424 — enables — protein histidine kinase binding
GO:0009557 — acts upstream of or within — antipodal cell differentiation
GO:0005737 — located in — cytoplasm
GO:0005634 — located in — nucleus
GO:0080036 — acts upstream of or within — regulation of cytokinin-activated signaling pathway
GO:0016310 — acts upstream of or within — phosphorylation
GO:0000160 — involved in — phosphorelay signal transduction system
GO:0009736 — involved in — cytokinin-activated signaling pathway
GO:0007165 — acts upstream of or within — signal transduction
GO:0005737 — is active in — cytoplasm
GO:0009560 — acts upstream of or within — embryo sac egg cell differentiation
GO:0009736 — acts upstream of or within — cytokinin-activated signaling pathway
GO:0000160 — acts upstream of or within — phosphorelay signal transduction system
GO:0016310 — involved in — phosphorylation
GO:0005634 — is active in — nucleus

CS3000 — Constructed transgenic plants contain the AHP5 protein in higher amounts than in wt plants; morphological phenotype similar to wt.
CS860147 — Inhibition of root elongation is similar to the wild type plants in the presence of various levels of exogenous cytokinin; root elongation in seedlings is inhibited by increasing concentrations of the cytokinin benzyl adenine (BA) in the growth media, showing a sharp decrease in root elongation between 10 and 50 nM BA.
CS860148 — Inhibition of root elongation is similar to the wild type plants in the presence of various levels of exogenous cytokinin; root elongation in seedlings is inhibited by increasing concentrations of the cytokinin benzyl adenine (BA) in the growth media, showing a sharp decrease in root elongation between 10 and 50 nM BA.
CS860153 — Inhibition of root elongation is similar to the wild type plants in the presence of various levels of exogenous cytokinin; root elongation in seedlings is inhibited by increasing concentrations of the cytokinin benzyl adenine (BA) in the growth media, showing a sharp decrease in root elongation between 10 and 50 nM BA.
CS860155 — Inhibition of root elongation is similar to the wild type plants in the presence of various levels of exogenous cytokinin; root elongation in seedlings is inhibited by increasing concentrations of the cytokinin benzyl adenine (BA) in the growth media, showing a sharp decrease in root elongation between 10 and 50 nM BA.
CS860156 — Inhibition of root elongation is similar to the wild type plants in the presence of various levels of exogenous cytokinin; root elongation in seedlings is inhibited by increasing concentrations of the cytokinin benzyl adenine (BA) in the growth media, showing a sharp decrease in root elongation between 10 and 50 nM BA.
CS860157 — Inhibition of root elongation is similar to the wild type plants in the presence of various levels of exogenous cytokinin; root elongation in seedlings is inhibited by increasing concentrations of the cytokinin benzyl adenine (BA) in the growth media, showing a sharp decrease in root elongation between 10 and 50 nM BA.
CS860160 — Inhibition of root elongation is substantially less sensitive to cytokinin than the wild type plants and is less responsive to cytokinin over the whole range of cytokinin benzyl adenine (BA) concentrations used in the growth media.
CS860161 — Reduced inhibition of hypocotyl elongation in response to cytokinin, consistent with reduced sensitivity to the hormone; very short and narrow primary root; xylem development in the narrow primary root is less extensive than in the larger primary root of wild-type plants.
CS860162 — Reduced inhibition of hypocotyl elongation in response to cytokinin, consistent with reduced sensitivity to the hormone; very short and narrow primary root; xylem development in the narrow primary root is less extensive than in the larger primary root of wild-type plants.
CS860164 — Abnormal growth and development: reduced vascular development in primary root; very short and narrow primary root; adventitious root development; smaller rosettes, shorter siliques, fewer seeds per silique; larger seeds and larger embryos than the wild type; reduced fertility; increased hypocotyl elongation in the presence of cytokinin.

Functional Keywords

Literature and News

Gene Resources

Homologs

Sequences

cDNA Sequence

>AT1G03430.1
ATTAATTCCTACAATATAGTCATTTACAAAAATAACCCTCCATTTGATATTTAAGTCAAAATCAGTCAACGGAACGTGGAATAAATTATAACTTTCGACGCTCCGATCAGATTCATCATCATCTCTCTCTGTGTCGCTCCGATTTTGAATTTGGAATCTCTTAGTTAAGTTGGAAGTTTGTTCTTTGGTCTTTTCGCCTAGTTGTTGTTGGATCTGTTTTAAATTAAGCCAAAAACCTCCGATTAGATCGATCTCGGAACCGTCGAAATACAGTTCACCGTATCCGTTGTTTGTTTTTGGTATATGTATGTTTGAGAAGCTCTTACCATCTTTGTTTACAAGTCTGGTTCTTGGTAAACTTTAGCTATGAACACCATCGTCGTTGCTCAGTTGCAGAGACAATTTCAAGACTACATCGTTTCTCTTTATCAACAGGGATTTCTGGATAATCAGTTCTCAGAGTTGAGAAAGTTGCAAGATGAAGGAACCCCTGATTTTGTAGCTGAAGTTGTCTCTCTATTCTTCGACGACTGTTCCAAGCTTATTAATACCATGTCTATATCCCTGGAGCGGCCAGATAATGTGGATTTCAAACAGGTGGATTCAGGTGTTCATCAACTCAAGGGTAGTAGCTCCAGTGTCGGTGCAAGGAGGGTGAAAAATGTGTGCATATCTTTCAAGGAATGTTGCGATGTTCAGAACCGTGAAGGGTGTCTAAGGTGTTTACAGCAGGTGGATTATGAATATAAGATGTTAAAGACTAAACTTCAGGATCTCTTTAATTTAGAGAAACAGATCCTCCAAGCTGGAGGTACAATTCCTCAAGTGGATATAAATTAGACCGATGCGTTTCTCGATTATGCAAATGTTCAAGGCTGATGACACAAATGAAACCGAAACTCCTCTGTAGTTTTGTTGTTGTTGTTATGTTTTATATTGATTAATGAGGTTCAGCAACACTGTCCCTGGCCAGATATCGTGTCTTGTTTAGACTCTTAATTGAGTTCTAAGAGTAAAAATTGAATTATTAGTCTATAAATAGACATGTCCATATGTATTCCTGTCACAATGCAACCACCATTTGGAGCCTTTGTTCTGACCATCATGACTTAGAATTCTCAGCATTATTCTGAATCTGATATACTCTATTGGATTCATGATTTTGATTTGAGCCGTAAAGCATGCGGGTACTAGTTAGCACTTTAGACGATTTCATTATGTGTGGA
>AT1G03430.2
ATTAATTCCTACAATATAGTCATTTACAAAAATAACCCTCCATTTGATATTTAAGTCAAAATCAGTCAACGGAACGTGGAATAAATTATAACTTTCGACGCTCCGATCAGATTCATCATCATCTCTCTCTGTGTCGCTCCGATTTTGAATTTGGAATCTCTTAGTTAAGTTGGAAGTTTGTTCTTTGGTCTTTTCGCCTAGTTGTTGTTGGATCTGTTTTAAATTAAGCCAAAAACCTCCGATTAGATCGATCTCGGAACCGTCGAAATACAGTTCACCGTATCCGTTGTTTGTTTTTGGTATATGTATGTTTGAGAAGCTCTTACCATCTTTGTTTACAAGTCTGGTTCTTGGTAAACTTTAGCTATGAACACCATCGTCGTTGCTCAGTTGCAGAGACAATTTCAAGACTACATCGTTTCTCTTTATCAACAGGGATTTCTGGATAATCAGTTCTCAGAGTTGAGAAAGTTGCAAGATGAAGGAACCCCTGATTTTGTAGCTGAAGTTGTCTCTCTATTCTTCGACGACTGTTCCAAGCTTATTAATACCATGTCTATATCCCTGGAGCGGCCAGATAATGTGGATTTCAAACAGGTGGATTCAGGTGTTCATCAACTCAAGGGTAGTAGCTCCAGTGTCGGTGCAAGGAGGGTGAAAAATGTGTGCATATCTTTCAAGGAATGTTGCGATGTTCAGAACCGTGAAGGGTGTCTAAGGTGTTTACAGCAGGTGGATTATGAATATAAGATGTTAAAGACTAAACTTCAGGATCTCTTTAATTTAGAGAAACAGATCCTCCAAGCTGGAGGTACAATTCCTCAAGTGGATATAAATTAGACCGATGCGTTTCTCGATTATGCAAATGTTCAAGGCTGATGACACAAATGAAACCGAAACTCCTCTGTAGTTTTGTTGTTGTTGTTATGTTTTATATTGATTAATGAGGTTCAGCAACACTGTCCCTGGCCAGATATCGTGTCTTGTTTAGACTCTTAATTGAGTTCTAAGAGTAAAAATTGAATTATTAGTCTATAAATAGACATGTCCATATGTATTCCTGTCACAATGCAACCACCATTTGGAGCCTTTGTTCTGACCATCATGACTTAGAATTCTCAGCATTATTCTGAATCTGATATACTCTATTGGATTCATGATTTTGATTTGAGCCGTAAAGCATGCGGGTACTAGTTAGCACTTTAGACGATTTCATTATGTGTGGA

CDS Sequence

>AT1G03430.1
ATGAACACCATCGTCGTTGCTCAGTTGCAGAGACAATTTCAAGACTACATCGTTTCTCTTTATCAACAGGGATTTCTGGATAATCAGTTCTCAGAGTTGAGAAAGTTGCAAGATGAAGGAACCCCTGATTTTGTAGCTGAAGTTGTCTCTCTATTCTTCGACGACTGTTCCAAGCTTATTAATACCATGTCTATATCCCTGGAGCGGCCAGATAATGTGGATTTCAAACAGGTGGATTCAGGTGTTCATCAACTCAAGGGTAGTAGCTCCAGTGTCGGTGCAAGGAGGGTGAAAAATGTGTGCATATCTTTCAAGGAATGTTGCGATGTTCAGAACCGTGAAGGGTGTCTAAGGTGTTTACAGCAGGTGGATTATGAATATAAGATGTTAAAGACTAAACTTCAGGATCTCTTTAATTTAGAGAAACAGATCCTCCAAGCTGGAGGTACAATTCCTCAAGTGGATATAAATTAG
>AT1G03430.2
ATGAACACCATCGTCGTTGCTCAGTTGCAGAGACAATTTCAAGACTACATCGTTTCTCTTTATCAACAGGGATTTCTGGATAATCAGTTCTCAGAGTTGAGAAAGTTGCAAGATGAAGGAACCCCTGATTTTGTAGCTGAAGTTGTCTCTCTATTCTTCGACGACTGTTCCAAGCTTATTAATACCATGTCTATATCCCTGGAGCGGCCAGATAATGTGGATTTCAAACAGGTGGATTCAGGTGTTCATCAACTCAAGGGTAGTAGCTCCAGTGTCGGTGCAAGGAGGGTGAAAAATGTGTGCATATCTTTCAAGGAATGTTGCGATGTTCAGAACCGTGAAGGGTGTCTAAGGTGTTTACAGCAGGTGGATTATGAATATAAGATGTTAAAGACTAAACTTCAGGATCTCTTTAATTTAGAGAAACAGATCCTCCAAGCTGGAGGTACAATTCCTCAAGTGGATATAAATTAG

Protein Sequence

>AT1G03430.1
MNTIVVAQLQRQFQDYIVSLYQQGFLDNQFSELRKLQDEGTPDFVAEVVSLFFDDCSKLINTMSISLERPDNVDFKQVDSGVHQLKGSSSSVGARRVKNVCISFKECCDVQNREGCLRCLQQVDYEYKMLKTKLQDLFNLEKQILQAGGTIPQVDIN
>AT1G03430.2
MNTIVVAQLQRQFQDYIVSLYQQGFLDNQFSELRKLQDEGTPDFVAEVVSLFFDDCSKLINTMSISLERPDNVDFKQVDSGVHQLKGSSSSVGARRVKNVCISFKECCDVQNREGCLRCLQQVDYEYKMLKTKLQDLFNLEKQILQAGGTIPQVDIN