Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.2 (PDK1)
 2,238 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Serine and threonine kinase STK1 and STK2 play an important regulatory role in the process of pollen development in maize. Six homologous sequences which were similar with STK1 and STK2 having more than 80 % similarity were found at NCBI, and they all belong to STK gene family. Phylogenetic analysis showed that STK family in maize might belong to RLK family. In STK family, gene duplication event was occurred during evolutionary process, and experienced purifying selection after gene duplication and the time of gene duplication was about 12 million years ago. The domains of STK family belongs to single transmembrane protein, which have intracellular conserved kinase catalytic domain and extracellular receptor domain on N-terminal. The evolution of intracellular selection was faster than extracellular selection, and positive selection or weak purifying selection play an important role. Analyzing its unique Usp domain we found that it was located between sensor domain at N-terminal and catalytic domain at C-terminal, which belongs to hydrophobic protein with several phosphorylation sites, acting on serine and threonine protein phosphorylation. The kinship of Usp domain in STK family was close to 35-like protein containing U-box domain, predicting that they might belong to the same family with a similar structure and function, so that we can predict the function of Usp domain in STK family.
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PMID:Phylogenetic analysis of STK gene family and Usp domain in maize. 2532 19

serine threonine kinase1 (stk1) and serine threonine kinase2 (stk2) are closely related maize paralogous genes predicted to encode serine/threonine protein kinases. Pollen mutated in stk1 or stk2 competes poorly with normal pollen, pointing to a defect in pollen tube germination or growth. Both genes are expressed in pollen, but not in most other tissues. In germination media, STK1 and STK2 fluorescent fusion proteins localize to the plasma membrane of the vegetative cell. RNA-seq experiments identified 534 differentially expressed genes in stk1 mutant pollen relative to wild type. Gene ontology (GO) molecular functional analysis uncovered several differentially expressed genes with putative ribosome initiation and elongation functions, suggesting that stk1 might affect ribosome function. Of the two paralogs, stk1 may play a more important role in pollen development than stk2, as stk2 mutations have a smaller pollen transmission effect. However, stk2 does act as an enhancer of stk1 because the double mutant combination is only infrequently pollen-transmitted in double heterozygotes. We conclude that the stk paralogs play an essential role in pollen development.
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PMID:Competitive Ability of Maize Pollen Grains Requires Paralogous Serine Threonine Protein Kinases STK1 and STK2. 2898 43


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