Wheat bread-making quality can be improved by use of high-molecular-weight glutenin subunits(HMW-GSs)from wild relatives.Aegilops longissima is a close relative of wheat that contains a number of HMW-GS-encoding genes...Wheat bread-making quality can be improved by use of high-molecular-weight glutenin subunits(HMW-GSs)from wild relatives.Aegilops longissima is a close relative of wheat that contains a number of HMW-GS-encoding genes including 1S^(l)x2.3^(*).In this study,transgenic wheat lines overexpressing 1S^(l)x2.3^(*)were obtained by Agrobacterium-mediated transformation and used to investigate the genetic contribution of 1S^(l)x2.3^(*)to wheat flour-processing quality.The 1S^(l)x2.3^(*)transgene was stably inherited and expressed over generations.Expression of 1S^(l)x2.3^(*)increased the relative expression of 1Dx2 and 1Dy12 and reduced that of 1By18 during grain development.In general,integration of 1S^(l)x2.3^(*)stimulated the accumulation of endogenous HMW-GSs and low-molecular-weight glutenin subunits in wheat kernels,greatly increasing the glutenin:gliadin ratio and resulting in faster formation of protein bodies in the endosperm during grain development.A wheat material with improved flour-making quality was developed in which 1S^(l)x2.3^(*)improved wheat bread-making quality.展开更多
The cultivation of the first filial generation of monoploid gametophyte clones of different Laminaria species (hybrid Laminaria) is an effective way of utilizing heterozygous vigor (heterosis). A female gametophyte cl...The cultivation of the first filial generation of monoploid gametophyte clones of different Laminaria species (hybrid Laminaria) is an effective way of utilizing heterozygous vigor (heterosis). A female gametophyte clone of L. japonica and a male gametophyte clone of L. longissima were hybridized, generating Dongfang No.2 hybrid Laminaria. The parentage of this hybrid Laminaria was determined using AFLP of total DNA, SNP of the ITS region of ribosomal RNA transcription unit and microsatellite DNA variation at two loci. In addition to 167 AFLP bands shared by Dongfang No.2, L. japonica and L. longissima, Dongfang No.2 hybrid Laminaria shared another 70 and 55 bands with L. japonica and L. longissima, respectively, which were obviously more than 11 bands shared by L. japonica and L. longissima. Dongfang No.2 held both ‘T’ and ‘C’ at position 847 of the ITS region, while ‘T’ at this position was specific for L. japonica and ‘C’ for L. longissima, respectively. Dongfang No.2 also held the microsatellite DNA alleles of two parents together at two microsatellite DNA marker loci. These observations clearly proved that Dongfang No.2 is a true hybrid of L. japonica and L. longissiuma. Unfortunately, the origin of the chloroplast of Dongfang No.2 was not determined based on the variation of RuBisCo spacer. More sequence variants of both ITS region and RuBisCo spacer were identified in Dongfang No.2 and most of them did not exist in either L. japonica or L. longissima. The unexpected variants may be due to the mutation of ga- metophyte clones occurring during their vegetative amplification.展开更多
Objective: To investigated the hematological, antioxidant and protective performance of Usnea longissima (U. longissima) on CCl4 induced hepatotoxicity in experimental animals. Methods: Hepatotoxicity was induced by C...Objective: To investigated the hematological, antioxidant and protective performance of Usnea longissima (U. longissima) on CCl4 induced hepatotoxicity in experimental animals. Methods: Hepatotoxicity was induced by CCl4 (1 mL/kg body weigt 1:1 CCl4 i.p.), ethanolic U. longissima extracts at a doses (200 and 400 mg/kg body weigt) were administered to and compared with Silymarin (25 mg/kg body weigt) and hematological, antioxidant and enzymatic, non-enzymatic parameters were assessed through the liver functions test. All the observation was also supplemented with histopathological examination of liver sections. Results: Phytochemical investigation showed that ethanolic extract contains poly phenolic compounds tannins, flavonoids, alkaloids and saponins and acute toxicity study shows that ethanolic extract was safe up to 2000 mg/kg body weight. The toxicant induced a rise in the plasma enzyme levels of ALT, AST, ALP and total bilirubin level. This increased level was significantly decreased by the extract at 400 mg/kg body weight than 200 mg/kg body weight. The animals were prevented (partly or fully) which was showed in the histopathological changes using ethonolic U. longissima extract. Conclusions: The outcome of this study reveals that, there is a powerful antioxidant and hepatoprotective activity of U. longissima. It is believed that the present constituents are responsible for courting the hepatic disease and alternative components have the power to act as free radical scavenging properties.展开更多
基金supported by the National Natural Science Foundation of China(31971945)the Department of Science and Technology of Ningxia in China(2019BBF02020)。
文摘Wheat bread-making quality can be improved by use of high-molecular-weight glutenin subunits(HMW-GSs)from wild relatives.Aegilops longissima is a close relative of wheat that contains a number of HMW-GS-encoding genes including 1S^(l)x2.3^(*).In this study,transgenic wheat lines overexpressing 1S^(l)x2.3^(*)were obtained by Agrobacterium-mediated transformation and used to investigate the genetic contribution of 1S^(l)x2.3^(*)to wheat flour-processing quality.The 1S^(l)x2.3^(*)transgene was stably inherited and expressed over generations.Expression of 1S^(l)x2.3^(*)increased the relative expression of 1Dx2 and 1Dy12 and reduced that of 1By18 during grain development.In general,integration of 1S^(l)x2.3^(*)stimulated the accumulation of endogenous HMW-GSs and low-molecular-weight glutenin subunits in wheat kernels,greatly increasing the glutenin:gliadin ratio and resulting in faster formation of protein bodies in the endosperm during grain development.A wheat material with improved flour-making quality was developed in which 1S^(l)x2.3^(*)improved wheat bread-making quality.
文摘The cultivation of the first filial generation of monoploid gametophyte clones of different Laminaria species (hybrid Laminaria) is an effective way of utilizing heterozygous vigor (heterosis). A female gametophyte clone of L. japonica and a male gametophyte clone of L. longissima were hybridized, generating Dongfang No.2 hybrid Laminaria. The parentage of this hybrid Laminaria was determined using AFLP of total DNA, SNP of the ITS region of ribosomal RNA transcription unit and microsatellite DNA variation at two loci. In addition to 167 AFLP bands shared by Dongfang No.2, L. japonica and L. longissima, Dongfang No.2 hybrid Laminaria shared another 70 and 55 bands with L. japonica and L. longissima, respectively, which were obviously more than 11 bands shared by L. japonica and L. longissima. Dongfang No.2 held both ‘T’ and ‘C’ at position 847 of the ITS region, while ‘T’ at this position was specific for L. japonica and ‘C’ for L. longissima, respectively. Dongfang No.2 also held the microsatellite DNA alleles of two parents together at two microsatellite DNA marker loci. These observations clearly proved that Dongfang No.2 is a true hybrid of L. japonica and L. longissiuma. Unfortunately, the origin of the chloroplast of Dongfang No.2 was not determined based on the variation of RuBisCo spacer. More sequence variants of both ITS region and RuBisCo spacer were identified in Dongfang No.2 and most of them did not exist in either L. japonica or L. longissima. The unexpected variants may be due to the mutation of ga- metophyte clones occurring during their vegetative amplification.
文摘Objective: To investigated the hematological, antioxidant and protective performance of Usnea longissima (U. longissima) on CCl4 induced hepatotoxicity in experimental animals. Methods: Hepatotoxicity was induced by CCl4 (1 mL/kg body weigt 1:1 CCl4 i.p.), ethanolic U. longissima extracts at a doses (200 and 400 mg/kg body weigt) were administered to and compared with Silymarin (25 mg/kg body weigt) and hematological, antioxidant and enzymatic, non-enzymatic parameters were assessed through the liver functions test. All the observation was also supplemented with histopathological examination of liver sections. Results: Phytochemical investigation showed that ethanolic extract contains poly phenolic compounds tannins, flavonoids, alkaloids and saponins and acute toxicity study shows that ethanolic extract was safe up to 2000 mg/kg body weight. The toxicant induced a rise in the plasma enzyme levels of ALT, AST, ALP and total bilirubin level. This increased level was significantly decreased by the extract at 400 mg/kg body weight than 200 mg/kg body weight. The animals were prevented (partly or fully) which was showed in the histopathological changes using ethonolic U. longissima extract. Conclusions: The outcome of this study reveals that, there is a powerful antioxidant and hepatoprotective activity of U. longissima. It is believed that the present constituents are responsible for courting the hepatic disease and alternative components have the power to act as free radical scavenging properties.
基金Supported by National Natural Science Foundation of China(31201203)Earmarked Fund for Modern Agro-industry Technology Research System(CARS-03-1-8)+3 种基金China Postdoctoral Science Foundation(2013T60850)Program for Youth Talent of Shandong Academy of Agricultural Sciences(1-18-024)Seed Industry Foundation Grant to Taishan ScholarAgricultural Improved Variety Industrialization Project of Shandong Province(2-B-08)~~