the optimal medium for inulinase production is seawater containing 4.0% (w/v) inulin and 0.5% (w/v) yeast extract, while the optimal cultivation conditions for inulinase production were pH 8.0, 28°C and 170 rpm
following defoliation, during fructan breakdown, the enzyme transcript level decreases in elongating leaf bases and in mature leaf sheaths in parallel to increased total fructan exohydrolase activities
following defoliation, during fructan breakdown, the enzyme transcript level decreases in elongating leaf bases and in mature leaf sheaths in parallel to increased total fructan exohydrolase activities
the transcript levels of the 6&1-FEH in crown tissues slightly increase until snow cover and then decrease under persistent snow cover, while those in leaf tissues appear to be constant. The levels are higher in PI 173438, a snow mold-resistant cultivar. Seasonal changes in mRNA levels of FEH genes (1-FEH, 6-KEH, 6&1-FEH, 6-FEH, Wfh-sm3) in crown and leaf tissues of winter wheat sampled in the field from autumn to spring (2009/2010), overview
the transcript levels of the 6&1-FEH in crown tissues slightly increase until snow cover and then decrease under persistent snow cover, while those in leaf tissues appear to be constant. The levels are higher in PI 173438, a snow mold-resistant cultivar. Seasonal changes in mRNA levels of FEH genes (1-FEH, 6-KEH, 6&1-FEH, 6-FEH, Wfh-sm3) in crown and leaf tissues of winter wheat sampled in the field from autumn to spring (2009/2010), overview
the transcript levels of the 6&1-FEH in crown tissues slightly increase until snow cover and then decrease under persistent snow cover, while those in leaf tissues appear to be constant. The levels are higher in PI 173438, a snow mold-resistant cultivar. Seasonal changes in mRNA levels of FEH genes (1-FEH, 6-KEH, 6&1-FEH, 6-FEH, Wfh-sm3) in crown and leaf tissues of winter wheat sampled in the field from autumn to spring (2009/2010), overview
the transcript levels of wfh-sm3 are low in snow mold-resistant cultivars (e.g. PI 173438) that accumulate high levels of fructan. Seasonal changes in the expression of wfh-sm3. Gene wfh-sm3 is correlated with those changes in fructan contents. Seasonal changes in mRNA levels of FEH genes (1-FEH, 6-KEH, 6&1-FEH, 6-FEH, Wfh-sm3) in crown and leaf tissues of winter wheat sampled in the field from autumn to spring (2009/2010), overview. Transcript levels of the gene wfh-sm3, in crown and leaf tissues are suddenly repressed in November and increase under snow cover until early February in crown tissues and until early January in leaf tissues followed by downregulation toward the end of snow cover. The changes in transcript levels of wfh-sm3 only coincide with changes in polysaccharide content in wheat tissues. The transcript levels in crown tissues of cv. PI 173438 are lower in autumn and winter than those in other cultivar
the transcript levels of wfh-sm3 are low in snow mold-resistant cultivars (e.g. PI 173438) that accumulate high levels of fructan. Seasonal changes in the expression of wfh-sm3. Gene wfh-sm3 is correlated with those changes in fructan contents. Seasonal changes in mRNA levels of FEH genes (1-FEH, 6-KEH, 6&1-FEH, 6-FEH, Wfh-sm3) in crown and leaf tissues of winter wheat sampled in the field from autumn to spring (2009/2010), overview. Transcript levels of the gene wfh-sm3, in crown and leaf tissues are suddenly repressed in November and increase under snow cover until early February in crown tissues and until early January in leaf tissues followed by downregulation toward the end of snow cover. The changes in transcript levels of wfh-sm3 only coincide with changes in polysaccharide content in wheat tissues. The transcript levels in crown tissues of cv. PI 173438 are lower in autumn and winter than those in other cultivar
the transcript levels of wfh-sm3 are low in snow mold-resistant cultivars (e.g. PI 173438) that accumulate high levels of fructan. Seasonal changes in the expression of wfh-sm3. Gene wfh-sm3 is correlated with those changes in fructan contents. Seasonal changes in mRNA levels of FEH genes (1-FEH, 6-KEH, 6&1-FEH, 6-FEH, Wfh-sm3) in crown and leaf tissues of winter wheat sampled in the field from autumn to spring (2009/2010), overview. Transcript levels of the gene wfh-sm3, in crown and leaf tissues are suddenly repressed in November and increase under snow cover until early February in crown tissues and until early January in leaf tissues followed by downregulation toward the end of snow cover. The changes in transcript levels of wfh-sm3 only coincide with changes in polysaccharide content in wheat tissues. The transcript levels in crown tissues of cv. PI 173438 are lower in autumn and winter than those in other cultivar