Both enhanced were H^+ transport activities of tonoplast vesicles isolated from roots of the salt-tolerant mutant and wild type of wheat with treatment of NaCI, but the activity of the mutant was significantly higher ...Both enhanced were H^+ transport activities of tonoplast vesicles isolated from roots of the salt-tolerant mutant and wild type of wheat with treatment of NaCI, but the activity of the mutant was significantly higher than that of wild type. H^+ transport activity was indicated as the stable value of fluorescence quenching per mg membrane proteins. The H^+ transport activities dependent on ATP of the mutant and wild type were 1099 and 558 respectively and their activities dependent on PPi were 358 and 228 separately.展开更多
The Na^+ and K^+ permeability of K^+ channel in plasma membrane, isolated from roots of the salt-tolerant mutant of ,wheat, was lower than that of wild type in 100 mmol/L KCI and NaCI solution. The opening frequency o...The Na^+ and K^+ permeability of K^+ channel in plasma membrane, isolated from roots of the salt-tolerant mutant of ,wheat, was lower than that of wild type in 100 mmol/L KCI and NaCI solution. The opening frequency of K^+ channel of the mutant reduced more significantly than that of wild type in two kinds of solution mentioned above. It is assumed that the reduction of opening frequency mainly contributes to the Na^+ and K^+ permeability of K^+ channel of the mutant. The electric conductance of single-channel of the mutant was similar to that of wild type and the main difference between them was exhibited as the opening frequency. Their K^+/Ka^+ selectivity of K^+ channel had no significant difference. The K^+/Na^+ selectivity of the mutant and wild type was 3.35 and 3. 18 respectively.展开更多
The full-length cDNA of the wheat (Triticum aestivum L.) root hair defective 3 gene (RHD3) has been cloned from the salt-tolerant hybrid wheat variety Shanrong No. 3 (Za3) using the mRNA differential display and 5’ra...The full-length cDNA of the wheat (Triticum aestivum L.) root hair defective 3 gene (RHD3) has been cloned from the salt-tolerant hybrid wheat variety Shanrong No. 3 (Za3) using the mRNA differential display and 5’rapid amplification of cDNA ends (RACE) methods. Analysis of the amino acid sequence deduced from the wheat RHD3, gene shows that two conservative GTP-binding motifs, namely GXXXXGKS and DXXG, in eukaryotes also exist at the N-terminal of wheat RHD3. In addition, an 18 amino acid residue transmembrane domain, namely FYLAVMFVVFLVGKAIWV, exists at positions 701—718 of the C-terminal of the deduced protein of wheat RHD3 obtained, but this domain is absent in another three proteins aligned, including rice RHD3, Arabidopsis RHD3, and yeast homologue SEY1. Northern blot revealed that transcription of the wheat RHD3, gene is down-regulated in both the salt-tolerant line and in JN177 under saline stress. A possible stress-responsive mechanism for this gene is discussed.展开更多
文摘Both enhanced were H^+ transport activities of tonoplast vesicles isolated from roots of the salt-tolerant mutant and wild type of wheat with treatment of NaCI, but the activity of the mutant was significantly higher than that of wild type. H^+ transport activity was indicated as the stable value of fluorescence quenching per mg membrane proteins. The H^+ transport activities dependent on ATP of the mutant and wild type were 1099 and 558 respectively and their activities dependent on PPi were 358 and 228 separately.
文摘The Na^+ and K^+ permeability of K^+ channel in plasma membrane, isolated from roots of the salt-tolerant mutant of ,wheat, was lower than that of wild type in 100 mmol/L KCI and NaCI solution. The opening frequency of K^+ channel of the mutant reduced more significantly than that of wild type in two kinds of solution mentioned above. It is assumed that the reduction of opening frequency mainly contributes to the Na^+ and K^+ permeability of K^+ channel of the mutant. The electric conductance of single-channel of the mutant was similar to that of wild type and the main difference between them was exhibited as the opening frequency. Their K^+/Ka^+ selectivity of K^+ channel had no significant difference. The K^+/Na^+ selectivity of the mutant and wild type was 3.35 and 3. 18 respectively.
文摘The full-length cDNA of the wheat (Triticum aestivum L.) root hair defective 3 gene (RHD3) has been cloned from the salt-tolerant hybrid wheat variety Shanrong No. 3 (Za3) using the mRNA differential display and 5’rapid amplification of cDNA ends (RACE) methods. Analysis of the amino acid sequence deduced from the wheat RHD3, gene shows that two conservative GTP-binding motifs, namely GXXXXGKS and DXXG, in eukaryotes also exist at the N-terminal of wheat RHD3. In addition, an 18 amino acid residue transmembrane domain, namely FYLAVMFVVFLVGKAIWV, exists at positions 701—718 of the C-terminal of the deduced protein of wheat RHD3 obtained, but this domain is absent in another three proteins aligned, including rice RHD3, Arabidopsis RHD3, and yeast homologue SEY1. Northern blot revealed that transcription of the wheat RHD3, gene is down-regulated in both the salt-tolerant line and in JN177 under saline stress. A possible stress-responsive mechanism for this gene is discussed.
