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Molecular cloning and biochemical characterization of a receptor-like serine/threonine kinase from rice (1994)

Zhao, Yan ; Feng, Xin-Hua ; Watson, John C. ; [et al.]

Springer

Plant molecular biology 26 (1994), S. 791-803

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ISSN: 1573-5028

Keywords: ATP ; GTP ; protein kinase ; receptor ; rice ; signal transduction

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract A receptor-like protein kinase, OsPK10, has been cloned from rice (Oryza sativa). The 2.8 kb cDNA contains an open reading frame capable of encoding a peptide sequence of 824 amino acids. The topological features of the predicted OsPK10 protein include an N-terminal signal peptide, a cysteine-rich extracellular ligand-binding domain, a membrane-spanning segment, and a cytoplasmic domain possessing all the hallmarks of catalytic domains of eukaryotic protein kinases. The cytoplasmic domain was selectively expressed in Escherichia coli and assayed for kinase activity. The results show the protein is capable of autophosphorylation using either ATP or GTP as the phosphate donor. Phosphoamino acid analysis reveals phosphorylation of threonines, consistent with the substrate specificity indicated by sequence motifs in the catalytic core. A single amino acid substitution of Glu for Lys-528 completely abolishes autophosphorylation activity. DNA gel blot analyses suggest that the haploid rice genome contains a single copy of the OsPK10 gene. OsPK10 transcripts appear to be more abundant in shoots than in roots of rice seedlings.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00028849

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Expression of the chlorophyll-a/b-protein multigene family in pea (Pisum sativum L.) (1992)

White, Michael J. ; Fristensky, Brian W. ; Falconet, Denis ; [et al.]

Springer

Planta 188 (1992), S. 190-198

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ISSN: 1432-2048

Keywords: Chlorophyll a/b protein ; Gene expression (Cab) ; Light and gene expression ; Light-harvesting complex (photosystem II) ; Multigene family (Cab) ; Pisum (Cab gene expression)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract To measure transcript levels for individual members of the Cab (chlorophyll a/b protein) multigene family in pea under a range of developmental situations, we developed a system using cDNA synthesis, the polymerase chain reaction (PCR), and chemiluminescence detection. In order to design gene-specific PCR primers for all genes, a partial genomic clone for a fifth, Type I LHCII (light-harvesting complex of photosystem II) gene, Cab-9 The Cab-9 sequence appears in the Genbank/EMBL databases under the accession number M86906 , was isolated and sequenced. All seven known Cab genes in pea are expressed in light-grown buds and leaves, including several genes previously known only from genomic clones. There appear to be at least two groups of Cab genes in pea which differ in their response to light and development. The first group (consisting of Cab-8, AB96, Cab-215 and Cab-315) includes Type I, Type II and Type III genes, shows a relatively strong response to red light, and has bud transcript levels similar to or slightly higher than leaves. The second group, consisting of the Type I genes Cab-9, AB80 and AB66, shows little or no transcript accumulation 24 h after a red light pulse, and has higher transcript levels in leaves than in buds. Transcript levels for genes in this second group appear to be lower than those of the first group in all developmental situations examined. These data indicate that there has been an evolutionary divergence of the responses to light and development among the Type I LHCII genes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00216813

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Photoregulated expression of the PsPK3 and PsPK5 genes in pea seedlings (1999)

Khanna, Rajnish ; Lin, Xia ; Watson, John C.

Springer

Plant molecular biology 39 (1999), S. 231-242

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ISSN: 1573-5028

Keywords: protein kinase ; signal transduction ; photoreceptor ; gene regulation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The PsPK3 and PsPK5 genes of the garden pea encode protein-serine/threonine kinases whose catalytic domains are closely related to known signal transducing kinases from animals and fungi. The PsPK3 polypeptide is predicted to be located in the nucleus, whereas PsPK5 is a homologue of NPH1, the probable blue light receptor for phototropism from Arabidopsis. We found previously that when etiolated pea seedlings are illuminated with continuous white light, PsPK3 and PsPK5 transcript levels within apical buds decline substantially, reaching their minimum levels within one day of exposure to light. The role of light in regulating the expression of the PsPK3 and PsPK5 genes was investigated further. To gain insight into the rapidity with which expression changes, 6-day old, dark-grown pea seedlings were transferred to continuous white light, and PsPK3 and PsPK5 RNA levels monitored over the ensuing 24 h. While transcripts from the RbcS gene family increase, the PsPK3 and PsPK5 mRNAs decline rapidly to their minimum levels. PsPK5 mRNA declines 10-fold in ca. 2 h, whereas PsPK3 mRNA declines 4-fold in ca. 8 h. We used single pulses of light to elucidate which photoreceptor triggers the negative regulation of PsPK3 and PsPK5 gene expression. To assess phytochrome involvement, etiolated seedlings were treated with single pulses of red light, red followed by far-red light, or far-red light alone. RbcS induction by a red light pulse is reversible with a subsequent far-red light pulse, clearly showing that phytochrome mediates its induction. Likewise, RbcS expression is induced with a single pulse of blue light or a dichromatic pulse of red+blue light. However, none of these pulses trigger the PsPK3 and PsPK5 mRNA levels to decline. Given the lack of effectiveness of light pulses, etiolated seedlings were transferred to continuous light of three different qualities to determine the spectral sensitivity of PsPK3 and PsPK5 gene expression. Exposure to continuous red, continuous far-red, or continuous blue light causes the PsPK3 and PsPK5 mRNAs to decline and transcripts from the RbcS and Cab gene families to increase. One likely explanation is that phytochrome A mediates the responses of these genes to continuous far-red light. The effectiveness of continuous red light and blue light in triggering the reduction in PsPK3 and PsPK5 mRNA levels and the increase in RbcS and Cab mRNAs may imply the participation of additional phytochromes and/or cryptochromes. Thus, the PsPK3 and PsPK5 genes exhibit responsiveness to continuous light, but a lack of responsiveness to single light pulses that is unusual, and perhaps unique, among light-regulated genes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1006154203639

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