- Information
- HSP16.9C, LOC_Os01g04360, Os01g0136000.
- HSP17.3, LOC_Os03g16020, Os03g0266900.
- HSP17.9A, LOC_Os03g15960, Os03g0266300.
- HSP17.9B, LOC_Os01g04350, Os01g0135900.
- HSP24.1, LOC_Os02g52150, Os02g0758000.
- HSP50.2, LOC_Os09g36420, Os09g0534600.
- HSP58.7, LOC_Os09g31486, Os09g0491772.
- HSP70CP2, LOC_Os12g14070, Os12g0244100.
- HSP71.1, LOC_Os03g16860, Os03g0276500.
- HSP74.8, LOC_Os09g29840, Os09g0474300.
- HSP80.2, LOC_Os09g30412, Os09g0482100.
- OsHSP50.2, None, None.
- OsHSP58.7, None, None.
- OsHSP74.8, None, None.
- Publication
- Isolation and characterization of the third gene encoding a 16.9 kDa class I low-molecular-mass heat shock protein, Oshsp 16.9 C, in rice., 2001, Botanical Bulletin of Academia Sinica.
- Heat shock-induced biphasic Ca2+ signature and OsCaM1-1 nuclear localization mediate downstream signalling in acquisition of thermotolerance in rice Oryza sativa L.., 2012, Plant Cell Environ..
- Characterization of the genomic structures and selective expression profiles of nine class I small heat shock protein genes clustered on two chromosomes in rice Oryza sativa L.., 2004, Plant Mol. Biol..
- Induction of a cDNA clone from rice encoding a class II small heat shock protein by heat stress, mechanical injury, and salicylic acid, 2007, Plant Sci..
- Investigating the Role of OsPDCD5, a Homolog of the Mammalian PDCD5, in Programmed Cell Death by Inducible Expression in Rice, 2012, Plant Molecular Biology Reporter.
- Structure of Rice Genes Encoding Three Class-I Low-Molecular-Mass Heat-Shock Proteins Accession Nos. U83669, U83670 and U83671. PGR98-178, 1998, Plant Physiol..
- Two rice Oryza sativa full-length cDNA clones encoding low-molecular-weight heat-shock proteins., 1992, Plant Mol. Biol..
- Expression analysis of nine rice heat shock protein genes under abiotic stresses and ABA treatment., 2009, J. Plant Physiol..
- Genome-wide identification, evolutionary and expression analyses of putative Fe-S biogenesis genes in rice Oryza sativa., 2012, Genome.
- Rice chloroplast-localized heat shock protein 70, OsHsp70CP1, is essential for chloroplast development under high-temperature conditions., 2013, J. Plant Physiol..
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