developmental- and stress-mediated expression of cinnamoyl-CoA reductase in Hibiscus cannabinus. HcCCR2 is expressed differentially in response to various stresses, and the highest expression is observed by drought and NaCl treatments
developmental- and stress-mediated expression of cinnamoyl-CoA reductase in Hibiscus cannabinus. HcCCR2 is expressed differentially in response to various stresses, and the highest expression is observed by drought and NaCl treatments, transcript expression patterns of HcCCR2 in response to various abiotic stresses, overview
enzyme expression can be induced by exposure to Xanthomonas campestris pv. Campestris or methyl jasmonate. Enzyme expression is highest in old roots, flowers, and young leaves
gene expression analysis reveals that HcCCR1 is highly upregulated in mature leaves of 16-week-old plants. The enzyme expression is also transiently upregulated by cold and drought, as well as salt (NaCl) treatment. The enzyme is first transiently downregulated by methyljasmonate and abscisic acid, after 12 h is becomes transiently upregulated. The enzyme is permantly upregulated by H2O2 for more than 48 h
no significant induction of FaCCR gene in the fruits exposed to Agrobacterium, ascompared to control fruits during 4 days. The expression level can even be reduced upon agroinfiltration
the enzyme expression is induced upon stress by salt, drought, abscisic acid, and wounding, as well as by cold, H2O2, methyljasmonate, and salicylic acid
the enzyme is induced by drought treatment, genes SbCCR1 and SbCCR2-2 mainly respond in the first phase of drought defense, while the SbCCR2-1 gene responds during the whole drought defense period
the expressions of isoforms CCR17 and 21 are induced in response to biotic and abiotic stresses, such as Magnaporthe grisea and Xanthomonas oryzae pv. oryzae infections, UV-irradiation and high salinity (250 mM NaCl)
gene expression analysis reveals that HcCCR1 is highly upregulated in mature leaves of 16-week-old plants. The enzyme expression is also transiently upregulated by cold and drought, as well as salt (NaCl) treatment. The enzyme is first transiently downregulated by methyljasmonate and abscisic acid, after 12 h is becomes transiently upregulated. The enzyme is permantly upregulated by H2O2 for more than 48 h
gene expression analysis reveals that HcCCR1 is highly upregulated in mature leaves of 16-week-old plants. The enzyme expression is also transiently upregulated by cold and drought, as well as salt (NaCl) treatment. The enzyme is first transiently downregulated by methyljasmonate and abscisic acid, after 12 h is becomes transiently upregulated. The enzyme is permantly upregulated by H2O2 for more than 48 h