Background Generally speaking. Chinese college graduates in the fifties and sixties took Russian as their second language, and those who graduated in the seventies had no second language to speak of. Now, in the years...Background Generally speaking. Chinese college graduates in the fifties and sixties took Russian as their second language, and those who graduated in the seventies had no second language to speak of. Now, in the years of our Open Door Policy, they find they have to learn some English and learn it quickly. They try to learn from radio and TV and many take English courses of 4 to 6 months, with varying degree of success. Their chief stumbling blocks展开更多
Fiber cell initiation is a complex process involving many pathways,including phytohormones and components for transcriptional and posttranscriptional regulation.Here we report expression
Objective:Toxoplasmosis is a zoonotic parasitic disease caused by Toxoplasma gondii(T.gondii),which can lead to complications such as encephalitis and ocular toxoplasmosis.The disease becomes more severe when the host...Objective:Toxoplasmosis is a zoonotic parasitic disease caused by Toxoplasma gondii(T.gondii),which can lead to complications such as encephalitis and ocular toxoplasmosis.The disease becomes more severe when the host’s immune system is compromised.Rhoptry proteins are major virulence factors that enable T.gondii to invade host cells.This study aims to construct a T.gondii rhoptry protein 41(rop41/ROP41)gene knockout strain and preliminarily investigate the biological function of rop41.Methods:Using CRISPR/Cas9 technology,a specific single-guide RNA(sgRNA)for the target gene was designed and linked to a recombinant plasmid.Homologous fragments were fused with a pyrimethamine resistance gene for selection purposes.The recombinant plasmid and the homologous fragments were electroporated into T.gondii,and PCR identification was performed after drug selection and monoclonal screening.Plaque assays were used to comprehensively assess whether rop41 affected the growth and proliferation of T.gondii in host cells.Invasion and proliferation assays were conducted to evaluate the invasion ability of the knockout strain into host cells and its intracellular proliferation capacity.The STRING database was utilized to construct a protein-protein interaction(PPI)network,and functional enrichment analysis was performed to predict the signaling pathways in which ROP41 might be involved.Results:The T.gondii rop41 gene knockout strain(RHΔku80Δrop41)was successfully constructed and stably inherited.Plaque assays showed that compared with the parental strain,the number of plaques formed by the rop41 gene knockout strain did not significantly decrease,but the reduction in plaque size was statistically significant(P<0.05).After the rop41 gene was knocked out,the invasion ability of T.gondii was reduced,but there was no statistically significant difference in its proliferation ability(P>0.05).The PPI network revealed that ROP41 was associated with other protein kinases and autophagy related proteins.Enrichment analysis indicated that proteins interacting with ROP41 may be involved in signal transduction,biosynthesis,metabolism,and autophagy-related pathways and could be components of various kinase complexes and phagocytic vesicles.Conclusion:The T.gondii RHΔku80Δrop41 strain has been successfully constructed.ROP41 primarily affects the ability of T.gondii to invade host cells and may play a role in signal transduction and autophagy-related pathways between T.gondii and the host.展开更多
Arabidopsis thaliana ovate family proteins (AtOFPs) is a newly found plant-specific protein family interacting with TALE (3-aa loop extension homeodomain proteins) homeodomain proteins in Arabidopsis. Here, based ...Arabidopsis thaliana ovate family proteins (AtOFPs) is a newly found plant-specific protein family interacting with TALE (3-aa loop extension homeodomain proteins) homeodomain proteins in Arabidopsis. Here, based on bioinformatic analysis, we found that Arabidopsis genome actually encoded 17 OVATE domain-containing proteins. One of them, AtOFP19, has not been previously identified. Based on their amino acid sequence similarity, AtOFPs proteins can be divided into two groups. Most of the AtOFPs were located in nuclear, four of them were presented in chloroplast and the remaining two members appeared in cytoplasmic. A genome- wide microarray based gene expression analysis involving 47 stages of vegetative and reproductive development revealed that AtOFPs have diverse expression pattems. Investigation of proteins interaction showed that nine AtOFPs only interacted with TALE homeodomain proteins, which are fundamental regulators of plant meristem function and leaf development. Our work could provide important leads toward functional genomics studies of ovate family proteins, which may be involved in a previously unrecognized control mechanism in plant development展开更多
S-adenosylmethionine (SAM) plays important role in trans-methyl reactions. Under the condition of drought (30% PEG), salinity (200 mmol· L^-1 NaCl) and low temperature (4℃), total RNA was extracted from ...S-adenosylmethionine (SAM) plays important role in trans-methyl reactions. Under the condition of drought (30% PEG), salinity (200 mmol· L^-1 NaCl) and low temperature (4℃), total RNA was extracted from the leaf and the first strand of cDNA was synthesized with reverse transcription. S-adenosylmethionine synthetase gene (SAMS gene) was amplified by PCR with the first strand cDNA as template and a pair of primers which was based on constructed ESTs sequence. Full-length SAMS gene sequence was obtained by BLAST comparison. According to the analysis, completed sequence of SAMS gene was integrality. The sequence of the SAMS gene was 1 185 bp in length with an opening reading frame (ORF) encoding 394 amino acids. The cDNA sequence showed a significant homology to the SAM genes from Phaseolus lunatus (89%), Medicago sativa (85%). A prokaryotic expression vectors based on pET-32b had been constructed and prokaryotic expression was analyzed in order to lay a strong foundation for resist adversity function analysis through situation of genic expression analysis.展开更多
Perturbation and robust controllability of the singular distributed parameter control system are discussed via functional analysis and the theory of GE-semigroup in Hilbert space. The perturbation principle of GE-semi...Perturbation and robust controllability of the singular distributed parameter control system are discussed via functional analysis and the theory of GE-semigroup in Hilbert space. The perturbation principle of GE-semigroup and the sufficient condition concerning the robust controllability of the singular distributed parameter control system are obtained, in which the controllability for singular distributed parameter control system is not destroyed, if we perturb the equation by small bounded linear operator.展开更多
The enzyme myo-inositol-1-phosphate synthase(MIPS EC 5.5.1.4) catalyzes the first step of myo-inositol biosynthesis, a product that plays crucial roles in plants as an osmoprotectant, transduction molecule, cell wal...The enzyme myo-inositol-1-phosphate synthase(MIPS EC 5.5.1.4) catalyzes the first step of myo-inositol biosynthesis, a product that plays crucial roles in plants as an osmoprotectant, transduction molecule, cell wall constituent and production of stress related molecule. Previous reports highlighted an important role of MIPS family genes in abiotic stresses particularly under salt stress tolerance in several plant species; however, little is known about the cellular and physiological functions of MIPS2 genes under abiotic conditions. In this study, a novel salt stress responsive gene designated Gs MIPS2 from wild soybean Glycine soja 07256 was functionally characterized contained an open reading frame(ORF) of 1 533 bp coding a peptide sequence of 510 amino acids along with mass of 56 445 ku. Multiple sequence alignment analysis revealed its 92%-99% similarity with other MIPS family members in legume proteins. Quantitative real-time PCR results demonstrated that Gs MIPS2 was induced by salt stress and expressed in roots of soybean. The positive function of Gs MIPS2 under salt response at different growth stages of transgenic Arabidopsis was also elucidated. The results showed that Gs MIPS2 transgenic lines displayed increased tolerance as compared to WT and atmips2 mutant lines under salt stress. Furthermore, the expression levels of some salt stress responsive marker genes, including KIN1, RD29 A, RD29 B, P5 Cs and COR47 were significantly up-regulated in Gs MIPS2 overexpression lines than wild type and atmips2 mutant. Collectively, these results suggested that Gs MIPS2 gene was a positive regulator of plant tolerance to salt stress. This was the first report to demonstrate that overexpression of Gs MIPS2 gene from wild soybean improved salt tolerance in transgenic Arabidopsis.展开更多
文摘Background Generally speaking. Chinese college graduates in the fifties and sixties took Russian as their second language, and those who graduated in the seventies had no second language to speak of. Now, in the years of our Open Door Policy, they find they have to learn some English and learn it quickly. They try to learn from radio and TV and many take English courses of 4 to 6 months, with varying degree of success. Their chief stumbling blocks
文摘Fiber cell initiation is a complex process involving many pathways,including phytohormones and components for transcriptional and posttranscriptional regulation.Here we report expression
基金supported by the National Natural Science Foundation of China(32170510)the Innovation Training Program of Central South University(20240026020055),China.
文摘Objective:Toxoplasmosis is a zoonotic parasitic disease caused by Toxoplasma gondii(T.gondii),which can lead to complications such as encephalitis and ocular toxoplasmosis.The disease becomes more severe when the host’s immune system is compromised.Rhoptry proteins are major virulence factors that enable T.gondii to invade host cells.This study aims to construct a T.gondii rhoptry protein 41(rop41/ROP41)gene knockout strain and preliminarily investigate the biological function of rop41.Methods:Using CRISPR/Cas9 technology,a specific single-guide RNA(sgRNA)for the target gene was designed and linked to a recombinant plasmid.Homologous fragments were fused with a pyrimethamine resistance gene for selection purposes.The recombinant plasmid and the homologous fragments were electroporated into T.gondii,and PCR identification was performed after drug selection and monoclonal screening.Plaque assays were used to comprehensively assess whether rop41 affected the growth and proliferation of T.gondii in host cells.Invasion and proliferation assays were conducted to evaluate the invasion ability of the knockout strain into host cells and its intracellular proliferation capacity.The STRING database was utilized to construct a protein-protein interaction(PPI)network,and functional enrichment analysis was performed to predict the signaling pathways in which ROP41 might be involved.Results:The T.gondii rop41 gene knockout strain(RHΔku80Δrop41)was successfully constructed and stably inherited.Plaque assays showed that compared with the parental strain,the number of plaques formed by the rop41 gene knockout strain did not significantly decrease,but the reduction in plaque size was statistically significant(P<0.05).After the rop41 gene was knocked out,the invasion ability of T.gondii was reduced,but there was no statistically significant difference in its proliferation ability(P>0.05).The PPI network revealed that ROP41 was associated with other protein kinases and autophagy related proteins.Enrichment analysis indicated that proteins interacting with ROP41 may be involved in signal transduction,biosynthesis,metabolism,and autophagy-related pathways and could be components of various kinase complexes and phagocytic vesicles.Conclusion:The T.gondii RHΔku80Δrop41 strain has been successfully constructed.ROP41 primarily affects the ability of T.gondii to invade host cells and may play a role in signal transduction and autophagy-related pathways between T.gondii and the host.
基金Supported by the National Natural Science Foundation of China (30870144)
文摘Arabidopsis thaliana ovate family proteins (AtOFPs) is a newly found plant-specific protein family interacting with TALE (3-aa loop extension homeodomain proteins) homeodomain proteins in Arabidopsis. Here, based on bioinformatic analysis, we found that Arabidopsis genome actually encoded 17 OVATE domain-containing proteins. One of them, AtOFP19, has not been previously identified. Based on their amino acid sequence similarity, AtOFPs proteins can be divided into two groups. Most of the AtOFPs were located in nuclear, four of them were presented in chloroplast and the remaining two members appeared in cytoplasmic. A genome- wide microarray based gene expression analysis involving 47 stages of vegetative and reproductive development revealed that AtOFPs have diverse expression pattems. Investigation of proteins interaction showed that nine AtOFPs only interacted with TALE homeodomain proteins, which are fundamental regulators of plant meristem function and leaf development. Our work could provide important leads toward functional genomics studies of ovate family proteins, which may be involved in a previously unrecognized control mechanism in plant development
基金National Science Foundation (30570990)Heilongjiang Province Educational Committee Science Research Foundation (11521023)
文摘S-adenosylmethionine (SAM) plays important role in trans-methyl reactions. Under the condition of drought (30% PEG), salinity (200 mmol· L^-1 NaCl) and low temperature (4℃), total RNA was extracted from the leaf and the first strand of cDNA was synthesized with reverse transcription. S-adenosylmethionine synthetase gene (SAMS gene) was amplified by PCR with the first strand cDNA as template and a pair of primers which was based on constructed ESTs sequence. Full-length SAMS gene sequence was obtained by BLAST comparison. According to the analysis, completed sequence of SAMS gene was integrality. The sequence of the SAMS gene was 1 185 bp in length with an opening reading frame (ORF) encoding 394 amino acids. The cDNA sequence showed a significant homology to the SAM genes from Phaseolus lunatus (89%), Medicago sativa (85%). A prokaryotic expression vectors based on pET-32b had been constructed and prokaryotic expression was analyzed in order to lay a strong foundation for resist adversity function analysis through situation of genic expression analysis.
基金supported by the National Natural Science Foundation of China(60674018)
文摘Perturbation and robust controllability of the singular distributed parameter control system are discussed via functional analysis and the theory of GE-semigroup in Hilbert space. The perturbation principle of GE-semigroup and the sufficient condition concerning the robust controllability of the singular distributed parameter control system are obtained, in which the controllability for singular distributed parameter control system is not destroyed, if we perturb the equation by small bounded linear operator.
基金Supported by "863" Project(2008AA10Z153)the National Natural Science Foundation of China(31171578)+1 种基金Heilongjiang Provincial Higher School Science and Technology Innovation Team Building Program(2011TD005)the National Basic Scientific Talent Training Fund Projects(J1210069)
文摘The enzyme myo-inositol-1-phosphate synthase(MIPS EC 5.5.1.4) catalyzes the first step of myo-inositol biosynthesis, a product that plays crucial roles in plants as an osmoprotectant, transduction molecule, cell wall constituent and production of stress related molecule. Previous reports highlighted an important role of MIPS family genes in abiotic stresses particularly under salt stress tolerance in several plant species; however, little is known about the cellular and physiological functions of MIPS2 genes under abiotic conditions. In this study, a novel salt stress responsive gene designated Gs MIPS2 from wild soybean Glycine soja 07256 was functionally characterized contained an open reading frame(ORF) of 1 533 bp coding a peptide sequence of 510 amino acids along with mass of 56 445 ku. Multiple sequence alignment analysis revealed its 92%-99% similarity with other MIPS family members in legume proteins. Quantitative real-time PCR results demonstrated that Gs MIPS2 was induced by salt stress and expressed in roots of soybean. The positive function of Gs MIPS2 under salt response at different growth stages of transgenic Arabidopsis was also elucidated. The results showed that Gs MIPS2 transgenic lines displayed increased tolerance as compared to WT and atmips2 mutant lines under salt stress. Furthermore, the expression levels of some salt stress responsive marker genes, including KIN1, RD29 A, RD29 B, P5 Cs and COR47 were significantly up-regulated in Gs MIPS2 overexpression lines than wild type and atmips2 mutant. Collectively, these results suggested that Gs MIPS2 gene was a positive regulator of plant tolerance to salt stress. This was the first report to demonstrate that overexpression of Gs MIPS2 gene from wild soybean improved salt tolerance in transgenic Arabidopsis.