Expression profile for evm.model.contig_4491.8 (evm.model.contig_4491.8)

Description : (at2g26650 : 132.0) Encodes AKT1, a member of the Shaker family inward rectifying potassium channel predominantly expressed in predominantly in root hairs and root endodermis. This family includes five groups based on phylogenetic analysis (FEBS Letters (2007) 581: 2357): I (inward rectifying channel): AKT1 (AT2G26650), AKT5 (AT4G32500) and SPIK (also known as AKT6, AT2G25600); II (inward rectifying channel): KAT1 (AT5G46240) and KAT2 (AT4G18290); III (weakly inward rectifying channel): AKT2 (AT4G22200); IV (regulatory subunit involved in inwardly rectifying conductance formation): KAT3 (also known as AtKC1, AT4G32650); V (outward rectifying channel): SKOR (AT3G02850) and GORK (AT5G37500).; K+ transporter 1 (KT1); CONTAINS InterPro DOMAIN/s: Cyclic nucleotide-binding (InterPro:IPR000595), Potassium channel, voltage-dependent, EAG/ELK/ERG (InterPro:IPR003938), Protein of unknown function DUF3354 (InterPro:IPR021789), Ion transport (InterPro:IPR005821), Ankyrin repeat-containing domain (InterPro:IPR020683), Cyclic nucleotide-binding-like (InterPro:IPR018490), RmlC-like jelly roll fold (InterPro:IPR014710), Ankyrin repeat (InterPro:IPR002110); BEST Arabidopsis thaliana protein match is: K+ transporter 5 (TAIR:AT4G32500.1); Has 86170 Blast hits to 36402 proteins in 1811 species: Archae - 161; Bacteria - 9078; Metazoa - 42367; Fungi - 8163; Plants - 4219; Viruses - 1188; Other Eukaryotes - 20994 (source: NCBI BLink). & (q8vyx2|akt1_orysa : 115.0) Potassium channel AKT1 (OsAKT1) - Oryza sativa (Rice) & (reliability: 264.0) & (original description: no original description)

Condition specificity: 1 h after light (SPM: 0.45, entropy: 2.22, tau: 0.42)
Tissue specificity: Dawn (SPM: 0.59, entropy: 2.25, tau: 0.4)
ZT time: ZT0-3 (SPM: 0.58, entropy: 2.25, tau: 0.38)

All conditions


Tissue specificity

Note: SPM calculations for this profile are done using the maximum value.


ZT time

Note: SPM calculations for this profile are done using the maximum value.