Your search keyword '"Cheng-Xiao, Hu"' showing total 2 results

1. Influences of Mo on Nitrate Reductase, Glutamine Synthetase and Nitrogen Accumulation and Utilization in Mo-Efficient and Mo-Inefficient Winter Wheat Cultivars

Author

Xue-cheng Sun, Yun-hua Wang, Min Yu, and Cheng-xiao Hu

Subjects

biology, food and beverages, chemistry.chemical_element, Plant Science, Nitrate reductase, Nitrogen, Enzyme assay, chemistry.chemical_compound, Animal science, chemistry, Nitrate, Glutamine synthetase, Soil pH, Botany, biology.protein, Cultivar, Agronomy and Crop Science, Plant nutrition

Abstract

The objective is to study whether the accumulation and utilization of plant N are controlled by Mo status in winter wheat cultivars. Mo-efficient cultivar 97003 (eff) and Mo-inefficient cultivar 97014 (ineff) were grown in severely Mo-deficient acidic soil (Tamm-reagent-extractable Mo 0.112 mg kg^(-1)) with (+Mo) and without (-Mo) the application of 0.13 mg kg^(-1) Mo. The accumulation and use efficiency of plant total N were significantly higher in +Mo than that in -Mo and in eff than that in ineff under Mo deficiency. N use efficiency was remarkably higher in maturity but it was forwarded to jointing stage after Mo supply, thus indicating that Mo supply promoted the N use efficiency besides N uptake and eff was efficient in N uptake and utilization. The overall activity of nitrate reductase (NR, EC 1.6.6.1) was significantly higher in +Mo than in -Mo and ratio of +Mo/-Mo was even to 14.8 at tillering stage for ineff. Activity of glutamine synthetase (GS, EC 6.3.1.2) was significantly lower in +Mo than in -Mo. Concentration of nitrate and glutamate were also significantly lower in +Mo than in -Mo, thus provided evidences for enhancing N use efficiency by Mo supply. Activities of NR and GS were significantly higher and concentrations of nitrate and glutamate were significantly lower in eff than ineff under Mo deficiency, thus indicated eff was more efficient in N reduction and utilization. It is therefore concluded that Mo could promote N accumulation and utilization in winter wheat which was directly related to NR and feedback regulated by GS. Higher Mo status also results in higher accumulation and utilization of plant N in eff.

Published

2010

2. Effects of Molybdenum on the Intermediates of Chlorophyll Biosynthesis in Winter Wheat Cultivars Under Low Temperature

Author

Yun-hua Wang, Min Yu, and Cheng-xiao Hu

Subjects

Protoporphyrin IX, Chemistry, Stereochemistry, Winter wheat, food and beverages, chemistry.chemical_element, Plant Science, chemistry.chemical_compound, Biosynthesis, Molybdenum, Chlorophyll, Uroporphyrinogen III, polycyclic compounds, Levulinic acid, Cultivar, Agronomy and Crop Science, Nuclear chemistry

Abstract

The objective was to probe the site where the biosynthesis of chlorophyll was blocked under Mo deficiency at low temperature, which led to the decrease of chlorophyll in winter wheat cultivars. The intermediates of chlorophyll biosynthesis were analyzed in winter wheat cultivars in soil culture, miniblock culture, and solution culture to study the effects of Mo on chlorophyll biosynthesis without Mo addition (CK, soil available Mo 0.112 mg kg−1) and Mo addition (+ Mo, 0.13 mg kg−1 Mo was added). Laevulinic acid (LA), the competitive analog of δ-aminolaevulinic acid (ALA) was also introduced in the experiment. The ratio of Chl a/Chl b was constant between CK and + Mo treatment, whereas it increased at low temperature, which indicated that Mo deficiency did not inhibit the transformation of Chl a to Chl b at low temperature. Under Mo deficiency, the contents of protochlorophyll (Pchl), Mg-protoporphyrin IX (Mg-Proto IX), protoporphyrin IX (proto IX), and uroporphyrinogen III (Uro III) decreased [Uro III decreased significantly (P

Published

2006