Physical inactivity has been identified as one of the leading causes of many chronic diseases such as cardiovascular disease,type 2 diabetes,and obesity.Technology such as video games plays a complicated role in physi...Physical inactivity has been identified as one of the leading causes of many chronic diseases such as cardiovascular disease,type 2 diabetes,and obesity.Technology such as video games plays a complicated role in physical inactivity—much like a double-edged sword.Traditionally,video games have contributed to the epidemic of physical inactivity and have展开更多
Throughout its more than 5000-year history,China has a long tradition of encouraging active engagement in physical and sport activities.1,2This enduring tradition,however,has been facing some major headwinds as China ...Throughout its more than 5000-year history,China has a long tradition of encouraging active engagement in physical and sport activities.1,2This enduring tradition,however,has been facing some major headwinds as China continues to experience demographic and environmental changes related to aging,urbanization,and lifestyle shifts.3-5Mounting evidence indicates increasing levels of sedentary behaviors。展开更多
In this special issue of the Journal of Sport and Health Science,a series of articles describe the results of the 2016Physical Activity and Fitness in China—The Youth Study.The results show a relatively high prevalen...In this special issue of the Journal of Sport and Health Science,a series of articles describe the results of the 2016Physical Activity and Fitness in China—The Youth Study.The results show a relatively high prevalence of sedentary behaviors,unhealthy weight,lower fitness levels,and lower levels展开更多
This study was to explore the immunity-promoting activity of porcine placenta as a potential raw material for functional foods.Porcine placenta was subjected to the analysis for its bioactive substances,and their immu...This study was to explore the immunity-promoting activity of porcine placenta as a potential raw material for functional foods.Porcine placenta was subjected to the analysis for its bioactive substances,and their immunity-promoting activity was determined in mice supplemented with porcine placenta extract(PPE)and freeze-dried porcine placenta powder at high(PPH)and low(PPL)dosage.Results showed that porcine placenta contained placental peptides and 15 free amino acids,and the amounts of estrogen and progesterone in products developed from porcine placenta were within the limit of national standard.Mice model experiment revealed that compared with the control,the PPH treatment significantly improved the spleen index(P<0.05)by increasing the phagocytic rate of macrophages from 20%to 60%and the conversion rate of T lymphocytes from 8%to 60%.The q PCR analysis disclosed that the porcine placenta powder enhanced mice immunity via promoting the expression of Th1 cytokines of interleukin-2(IL-2)and IFN-γ,especially the former,by almost 8 times in the spleens of male mice,while inhibited Th2 cytokines of IL-4 and IL-10.This investigation has provided a reference for the development of porcine placenta as a raw material applied in functional foods to improve human immunity.展开更多
BMP2 plays crucial roles in vertebrate developmental process and acts as a bone inducer during osteogenesis. We present here the molecular cloning of bmp2 cDNA from the marine flatfish Cynoglossus semilaevis, and the ...BMP2 plays crucial roles in vertebrate developmental process and acts as a bone inducer during osteogenesis. We present here the molecular cloning of bmp2 cDNA from the marine flatfish Cynoglossus semilaevis, and the analysis of bmp2 expression profiling and promoter function. The full length of bmp2 cDNA sequence is 2 048 bp,which encodes a protein of 422 amino acids. Tissue expression distribution of bmp2 was examined in 14 tissues of mature individuals by quantitative real time PCR(qRT-PCR). The results revealed that bmp2 was expressed ubiquitously, and the highest expression level was detected in the spinal cord. Moreover, bmp2 expression levels were detected at 15 sampling time points of early developmental stages(egg, larva, juvenile and fingerling stages).The highest expression level of bmp2 was observed at the gastrula stage, which was about ten times higher than those at the other three embryo stages. Whole-mount in situ hybridization showed that the bmp2 signal was strongly detected at the location of the crown-like larval fin, heart and liver, and slightly expressed in the notochord at one day post hatch(dph); then the expression of bmp2 started to be concentrated in notochord at three dph. Subsequently, we characterized the 5′-flanking region of bmp2 by testing the promoter activity by Luciferase reporter assays. Positive regulatory region was detected at the location of –179 to +109. The predicted transcription factor binding sites(E-box binding factors, zinc finger transcription factor, etc.) in this region might participate in the transcriptional regulation of the bmp2 gene.展开更多
The central nervous system has a very high energy requirement. Accord- ingly, despite representing only 2% of the body's mass, the brain uses 20% of the total oxygen consumption. Importantly, because most of this ene...The central nervous system has a very high energy requirement. Accord- ingly, despite representing only 2% of the body's mass, the brain uses 20% of the total oxygen consumption. Importantly, because most of this energy is used to maintain synaptic activity, even a mild decrease in its supply to the brain has deleterious implications for synaptic function.展开更多
Stroke causes long-term disability, and rehabilitative training is commonly used to improve the consecutive functional recovery. Following brain damage, surviving neurons undergo morphological alterations to reconstru...Stroke causes long-term disability, and rehabilitative training is commonly used to improve the consecutive functional recovery. Following brain damage, surviving neurons undergo morphological alterations to reconstruct the remaining neural network. In the motor system, such neural network remodeling is observed as a motor map reorganization. Because of its significant correlation with functional recovery, motor map reorganization has been regarded as a key phenomenon for functional recovery after stroke. Although the mechanism underlying motor map reorganization remains unclear, increasing evidence has shown a critical role for axonal remodeling in the corticospinal tract. In this study, we review previous studies investigating axonal remodeling in the corticospinal tract after stroke and discuss which mechanisms may underlie the stimulatory effect of rehabilitative training. Axonal remodeling in the corticospinal tract can be classified into three types based on the location and the original targets of corticospinal neurons, and it seems that all the surviving corticospinal neurons in both ipsilesional and contralesional hemisphere can participate in axonal remodeling and motor map reorganization. Through axonal remodeling, corticospinal neurons alter their output selectivity from a single to multiple areas to compensate for the lost function. The remodeling of the corticospinal axon is influenced by the extent of tissue destruction and promoted by various therapeutic interventions, including rehabilitative training. Although the precise molecular mechanism underlying rehabilitation-promoted axonal remodeling remains elusive, previous data suggest that rehabilitative training promotes axonal remodeling by upregulating growth-promoting and downregulating growth-inhibiting signals.展开更多
Background The CREG is an important lysosomal protein involved in a variety of cellular functions including promoting cell differentiation,sustaining mature homeostasis, and antagonizing apoptosis.Deficiency of CREG i...Background The CREG is an important lysosomal protein involved in a variety of cellular functions including promoting cell differentiation,sustaining mature homeostasis, and antagonizing apoptosis.Deficiency of CREG in cell and tissue results in a pathologic apoptosis.The present study aimed to elucidate the mechanism of CREG regulation apoptosis.Methods We firstly generated stable NIH3T3 fibroblasts by transfection of pDS_shCREGs vectors.Furthermore, PI-Annexin V and TUNEL staining were used to identify that CREG knockdown promoted the cell apoptosis in NIH3T3 fibroblasts.Western blotting and immunofluorescence staining was used to identify the expression and localization of M6P/ IGF2R and cathepsin L in cytoplasm.Results pDS_shCREGs vector transfection produced an approximately 80%decrease in CREG levels both in the lysate and in the media.The expression and localization of M6P/IGF2R and cathepsin L in cytoplasma changed obviously associated with down-regulated of CREG.In addition,the retention and secretion of cathepsin L enhanced significantly.Using the specific inhibitor or siRNA to block cathepsin L activation attenuated the apoptosis mediated by CREG downregulation.Conclusions Our findings indicated that inhibition of CREG expression in NIH3T3 fibroblasts leads to impaired cathepsin L sorting function mediated by M6P/IGF2R and subsequently promotes pathological cell apoptosis.展开更多
A Chinese delegation of 24 persons headed by Mr. Luan Enjie, Vice Administrator of China National Space Administration (CNSA) attended the Second Asia-Pacific Conference on Multilateral Cooperation in Space Technology...A Chinese delegation of 24 persons headed by Mr. Luan Enjie, Vice Administrator of China National Space Administration (CNSA) attended the Second Asia-Pacific Conference on Multilateral Cooperation in Space Technology and Applications held at Islamabad, the Capital of Pakistan from April 22 to 26, 1995. Following the First AsiaPacific Workshop held in Beijing in December, 1992, and the First Asia-Pacific Conference on Multilateral Cooperation in展开更多
Respect for human rights and protection of human rights are significant rules in the Constitution of the People’s Republic of China.In 2015,judicial administration departments at all levels legally exercised their du...Respect for human rights and protection of human rights are significant rules in the Constitution of the People’s Republic of China.In 2015,judicial administration departments at all levels legally exercised their duties,implemented the principles and rules in constitution,and kept strengthening propagation of human rights through creation of contents and methods which had acquired great effects.What they have done contributes significantly toward the development of human rights in China.展开更多
Promoters are critical elements to control gene expression but could behave differently under various growth conditions. Here we report the construction of a genome-wide promoter library, in which each native promoter...Promoters are critical elements to control gene expression but could behave differently under various growth conditions. Here we report the construction of a genome-wide promoter library, in which each native promoter in Saccharomyces cerevisiae was cloned upstream of a yellow fluorescent protein (YFP) reporter gene. Nine libraries were arbitrarily defined and assembled in bacteria. The resulting pools of promoters could be prepared and transformed into a yeast strain either as centromeric plasmids or integrated into a genomic locus upon enzymatic treatment. Using fluorescence activated cell sorting, we classified the yeast strains based on YFP fluorescence intensity and arbitrarily divided the entire library into 12 bins, representing weak to strong promoters. Several strong promoters were identified from the most active bins and their activities were assayed under different growth conditions. Finally, these promoters were applied to drive the expression of genes in xylose utilization to improve fermentation efficiency. Together, this library could provide a quick solution to identify and utilize desired promoters under user-defined growth conditions.展开更多
Graphene films(GFs) and graphene-reinforced nanocomposite coatings(GNCs) have received unprecedented attention for corrosion protection because graphene possesses a remarkable chemical inertness and is completely impe...Graphene films(GFs) and graphene-reinforced nanocomposite coatings(GNCs) have received unprecedented attention for corrosion protection because graphene possesses a remarkable chemical inertness and is completely impermeable to aggressive chemicals. However, the high electric conductivity and positive potential of graphene make graphene-based metal protectors tend to exhibit an undesirable high corrosion-promotion activity(CPA), which is widely known as the phenomenon that graphene connecting with metal accelerates the corrosion of metal substrate by inducing micro-galvanic corrosion at the defect sites of GFs or GNCs in aggressive environments. Therefore, inhibiting the CPA of graphene is currently a key focus for the application of graphene in the field of corrosion protection. In this review, the mechanisms, influencing factors, and inhibition strategies of the CPA of GFs and GNCs are highlighted from the point of view of corrosion science to address the bottlenecks and challenges for future research and potential applications of graphene for corrosion protection.展开更多
The molecular basis for increasing of the glucoamylase (GLA) production of an Aspergillus niger mutant T21 was investigated . Northern blot analysis showed that the amount of glaA specific mRNA of A . niger T21 was ab...The molecular basis for increasing of the glucoamylase (GLA) production of an Aspergillus niger mutant T21 was investigated . Northern blot analysis showed that the amount of glaA specific mRNA of A . niger T21 was about 20 times higher than that of its start strain A . niger AS 3.795. The two glaA promoter fusions (PglaA)-uidAs were respectively introduced into A . niger. Analysis of GUS activity of the transformants revealed that the PglaA activity of the strain T21 is about 3 times stronger than that of the strain AS 3.795. It is considered to be one of the reasons for the increase of glaA transcriptional level in the strain T21. However, comparing with the 20 times increase in the amount of glaA mRNA the alteration of trans regulation should be the most important reason for that. The results of deletion analysis of 5′-cis region of A . niger T21 glaA gene indicated that the region from - 408 to - 513 bp upstream of ATG is responsible for the high level expression of glaA.展开更多
Lmo2 is a T cell leukemia-related proto-oncogene, which belongs to the LIM protein family. Previous work has established its key role in yolk sac erythropoiesis and adult hematopoiesis, and it is also necessary for re...Lmo2 is a T cell leukemia-related proto-oncogene, which belongs to the LIM protein family. Previous work has established its key role in yolk sac erythropoiesis and adult hematopoiesis, and it is also necessary for regulating angiogenesis. It has been demonstrated that this gene encodes a protein of 158 amino acids, consisting of two tandem cysteine-rich LIM domains, but the detailed mechanism of its transcriptional regulation remains to be elucidated. To further investigate the mechanism of transcriptional regulation of Lmo2, we combined SMART PCR technology with 5′RACE and found a novel post-transcriptional splicing form of Lmo2 in adult human kidney. This alternative transcript contains only two exons, encoding a smaller protein of 151 amino acids. Interestingly, it shares the same reading frame as the original Lmo2, but differs in 7 amino acids at the N-terminus. A genomic DNA fragment (from ?294 nts to +180 nts) containing the putative promoter region has been inserted into the luciferase reporter gene vector pGL3-basic and showed stable promoter activity when transfected into COS7. RT-PCR analysis revealed that this variant transcript was expressed widely in human tissues and cell lines, suggesting its potential basic functional importance.展开更多
Auxin and cytokinin direct cell proliferation and differentiation during the in vitro culture of plant cells, but the molecular basis of these processes, especially de novo shoot regeneration, has not been fully eluci...Auxin and cytokinin direct cell proliferation and differentiation during the in vitro culture of plant cells, but the molecular basis of these processes, especially de novo shoot regeneration, has not been fully elucidated. Here, we describe the regulatory control of shoot regeneration in Arabidopsis thaliana(L.) Heynh, based on the interaction of ARABIDOPSIS RESPONSE REGULATOR12(ARR12) and WUSCHEL(WUS). The major site of ARR12 expression coincided with the location where the shoot apical meristem(SAM) initiated. The oar12 mutants showed severely impaired shoot regeneration and reduced responsiveness to cytokinin; consistent with this, the overexpression of ARR12 enhanced shoot regeneration.Certain shoot meristem specification genes, notably WUSCHEL(WUS) and CLAVATA3, were significantly downregulated in the arr1z explants. Chromatin immunoprecipitation(ChIP) and transient activation assays demonstrated that ARR12 binds to the promoter of WUS. These observations indicate that during shoot regeneration, in vitro, ARR12 functions as a molecular link between cytokinin signaling and the expression of shoot meristem specification genes.展开更多
Subject Code:H16With the support by the National Natural Science Foundation of China,a study by the research groups led by Prof.Dong Chenfang(董辰方)from Zhejiang University School of Medicine demonstrates that AKR1B1...Subject Code:H16With the support by the National Natural Science Foundation of China,a study by the research groups led by Prof.Dong Chenfang(董辰方)from Zhejiang University School of Medicine demonstrates that AKR1B1promotes basal-like breast cancer progression by apositive feedback loop that activates the展开更多
Green represents vitality;blue symbolizes opening.Magnificence blooms when'Jiangxi green'encounters'diplomacy blue'.In Sept 8,the Global Promotion of Jiangxi was held in the Blue Hall of the Ministry o...Green represents vitality;blue symbolizes opening.Magnificence blooms when'Jiangxi green'encounters'diplomacy blue'.In Sept 8,the Global Promotion of Jiangxi was held in the Blue Hall of the Ministry of Foreign Affairs in Beijing.This was the 10th Global Promotion for provinces held by the ministry.Ten represents perfection in Chinese culture.It is everybody’s expectation.展开更多
Autophagy dysfunction is a common feature in neurodegenerative disorders caused by the accumulation of toxic,aggregate-prone proteins.Increasing evidence have demonstrated that genetic or pharmacological activation of...Autophagy dysfunction is a common feature in neurodegenerative disorders caused by the accumulation of toxic,aggregate-prone proteins.Increasing evidence have demonstrated that genetic or pharmacological activation of transcription factor EB(TFEB),a master regulator of autophagy and lysosomal biogenesis,ameliorates neurotoxicity and rescues neurodegenerative phenotypes in several animal models of neurodegenerative diseases.展开更多
Objective To explore whether CD137-CD137L signaling can promote angiogenesis in atherosclerosis plaque via activating nuclear factor of activated T cells c1(NFATc1).Methods Apolipoprotein E knock out mice were divided...Objective To explore whether CD137-CD137L signaling can promote angiogenesis in atherosclerosis plaque via activating nuclear factor of activated T cells c1(NFATc1).Methods Apolipoprotein E knock out mice were divided into the following groups:control group(n=5),CD137 activated group(n=5)and CD137 in-展开更多
文摘Physical inactivity has been identified as one of the leading causes of many chronic diseases such as cardiovascular disease,type 2 diabetes,and obesity.Technology such as video games plays a complicated role in physical inactivity—much like a double-edged sword.Traditionally,video games have contributed to the epidemic of physical inactivity and have
文摘Throughout its more than 5000-year history,China has a long tradition of encouraging active engagement in physical and sport activities.1,2This enduring tradition,however,has been facing some major headwinds as China continues to experience demographic and environmental changes related to aging,urbanization,and lifestyle shifts.3-5Mounting evidence indicates increasing levels of sedentary behaviors。
文摘In this special issue of the Journal of Sport and Health Science,a series of articles describe the results of the 2016Physical Activity and Fitness in China—The Youth Study.The results show a relatively high prevalence of sedentary behaviors,unhealthy weight,lower fitness levels,and lower levels
基金supported by grants from the National Key Research and Development Projects(2019YFE0103800)Scientific Research Project of Sichuan Provincial Health Department(No.18PJ586)Research and Innovation Team Project of Chengdu Medical College(No.CYTD16-04)。
文摘This study was to explore the immunity-promoting activity of porcine placenta as a potential raw material for functional foods.Porcine placenta was subjected to the analysis for its bioactive substances,and their immunity-promoting activity was determined in mice supplemented with porcine placenta extract(PPE)and freeze-dried porcine placenta powder at high(PPH)and low(PPL)dosage.Results showed that porcine placenta contained placental peptides and 15 free amino acids,and the amounts of estrogen and progesterone in products developed from porcine placenta were within the limit of national standard.Mice model experiment revealed that compared with the control,the PPH treatment significantly improved the spleen index(P<0.05)by increasing the phagocytic rate of macrophages from 20%to 60%and the conversion rate of T lymphocytes from 8%to 60%.The q PCR analysis disclosed that the porcine placenta powder enhanced mice immunity via promoting the expression of Th1 cytokines of interleukin-2(IL-2)and IFN-γ,especially the former,by almost 8 times in the spleens of male mice,while inhibited Th2 cytokines of IL-4 and IL-10.This investigation has provided a reference for the development of porcine placenta as a raw material applied in functional foods to improve human immunity.
基金The Special Scientific Research Funds for Central Non-profit Institutes,Chinese Academy of Fishery Sciences under contract No.2016RC-LX02the National Natural Science Foundation of China under contract No.31201981
文摘BMP2 plays crucial roles in vertebrate developmental process and acts as a bone inducer during osteogenesis. We present here the molecular cloning of bmp2 cDNA from the marine flatfish Cynoglossus semilaevis, and the analysis of bmp2 expression profiling and promoter function. The full length of bmp2 cDNA sequence is 2 048 bp,which encodes a protein of 422 amino acids. Tissue expression distribution of bmp2 was examined in 14 tissues of mature individuals by quantitative real time PCR(qRT-PCR). The results revealed that bmp2 was expressed ubiquitously, and the highest expression level was detected in the spinal cord. Moreover, bmp2 expression levels were detected at 15 sampling time points of early developmental stages(egg, larva, juvenile and fingerling stages).The highest expression level of bmp2 was observed at the gastrula stage, which was about ten times higher than those at the other three embryo stages. Whole-mount in situ hybridization showed that the bmp2 signal was strongly detected at the location of the crown-like larval fin, heart and liver, and slightly expressed in the notochord at one day post hatch(dph); then the expression of bmp2 started to be concentrated in notochord at three dph. Subsequently, we characterized the 5′-flanking region of bmp2 by testing the promoter activity by Luciferase reporter assays. Positive regulatory region was detected at the location of –179 to +109. The predicted transcription factor binding sites(E-box binding factors, zinc finger transcription factor, etc.) in this region might participate in the transcriptional regulation of the bmp2 gene.
基金supported in part by National Institutes of Health Grants NS-091201(to MY)and NS-079331(to MY)VA MERIT Award IO1BX003441(to MY)
文摘The central nervous system has a very high energy requirement. Accord- ingly, despite representing only 2% of the body's mass, the brain uses 20% of the total oxygen consumption. Importantly, because most of this energy is used to maintain synaptic activity, even a mild decrease in its supply to the brain has deleterious implications for synaptic function.
基金supported by the JSPSKAKENHI Grant-in-Aid for Scientific Research(B),Grant Numbers24700572 and 30614276
文摘Stroke causes long-term disability, and rehabilitative training is commonly used to improve the consecutive functional recovery. Following brain damage, surviving neurons undergo morphological alterations to reconstruct the remaining neural network. In the motor system, such neural network remodeling is observed as a motor map reorganization. Because of its significant correlation with functional recovery, motor map reorganization has been regarded as a key phenomenon for functional recovery after stroke. Although the mechanism underlying motor map reorganization remains unclear, increasing evidence has shown a critical role for axonal remodeling in the corticospinal tract. In this study, we review previous studies investigating axonal remodeling in the corticospinal tract after stroke and discuss which mechanisms may underlie the stimulatory effect of rehabilitative training. Axonal remodeling in the corticospinal tract can be classified into three types based on the location and the original targets of corticospinal neurons, and it seems that all the surviving corticospinal neurons in both ipsilesional and contralesional hemisphere can participate in axonal remodeling and motor map reorganization. Through axonal remodeling, corticospinal neurons alter their output selectivity from a single to multiple areas to compensate for the lost function. The remodeling of the corticospinal axon is influenced by the extent of tissue destruction and promoted by various therapeutic interventions, including rehabilitative training. Although the precise molecular mechanism underlying rehabilitation-promoted axonal remodeling remains elusive, previous data suggest that rehabilitative training promotes axonal remodeling by upregulating growth-promoting and downregulating growth-inhibiting signals.
文摘Background The CREG is an important lysosomal protein involved in a variety of cellular functions including promoting cell differentiation,sustaining mature homeostasis, and antagonizing apoptosis.Deficiency of CREG in cell and tissue results in a pathologic apoptosis.The present study aimed to elucidate the mechanism of CREG regulation apoptosis.Methods We firstly generated stable NIH3T3 fibroblasts by transfection of pDS_shCREGs vectors.Furthermore, PI-Annexin V and TUNEL staining were used to identify that CREG knockdown promoted the cell apoptosis in NIH3T3 fibroblasts.Western blotting and immunofluorescence staining was used to identify the expression and localization of M6P/ IGF2R and cathepsin L in cytoplasm.Results pDS_shCREGs vector transfection produced an approximately 80%decrease in CREG levels both in the lysate and in the media.The expression and localization of M6P/IGF2R and cathepsin L in cytoplasma changed obviously associated with down-regulated of CREG.In addition,the retention and secretion of cathepsin L enhanced significantly.Using the specific inhibitor or siRNA to block cathepsin L activation attenuated the apoptosis mediated by CREG downregulation.Conclusions Our findings indicated that inhibition of CREG expression in NIH3T3 fibroblasts leads to impaired cathepsin L sorting function mediated by M6P/IGF2R and subsequently promotes pathological cell apoptosis.
文摘A Chinese delegation of 24 persons headed by Mr. Luan Enjie, Vice Administrator of China National Space Administration (CNSA) attended the Second Asia-Pacific Conference on Multilateral Cooperation in Space Technology and Applications held at Islamabad, the Capital of Pakistan from April 22 to 26, 1995. Following the First AsiaPacific Workshop held in Beijing in December, 1992, and the First Asia-Pacific Conference on Multilateral Cooperation in
文摘Respect for human rights and protection of human rights are significant rules in the Constitution of the People’s Republic of China.In 2015,judicial administration departments at all levels legally exercised their duties,implemented the principles and rules in constitution,and kept strengthening propagation of human rights through creation of contents and methods which had acquired great effects.What they have done contributes significantly toward the development of human rights in China.
基金We thank Jianhuo Fang at DNA sequencing facility in Tsinghua University for providing the sequencing service. This work was supported by the National Natural Science Foundation of China (Grant No. 31471254), Chinese Ministry of Science and Technology grant 2012CB725201 and Tsinghua University Initiative grant 20161080088.
文摘Promoters are critical elements to control gene expression but could behave differently under various growth conditions. Here we report the construction of a genome-wide promoter library, in which each native promoter in Saccharomyces cerevisiae was cloned upstream of a yellow fluorescent protein (YFP) reporter gene. Nine libraries were arbitrarily defined and assembled in bacteria. The resulting pools of promoters could be prepared and transformed into a yeast strain either as centromeric plasmids or integrated into a genomic locus upon enzymatic treatment. Using fluorescence activated cell sorting, we classified the yeast strains based on YFP fluorescence intensity and arbitrarily divided the entire library into 12 bins, representing weak to strong promoters. Several strong promoters were identified from the most active bins and their activities were assayed under different growth conditions. Finally, these promoters were applied to drive the expression of genes in xylose utilization to improve fermentation efficiency. Together, this library could provide a quick solution to identify and utilize desired promoters under user-defined growth conditions.
基金supported by the National Natural Science Foundation of China (Nos. 21703026, 51671047, and 21978036)the General Financial Grant from the China Postdoctoral Science Foundation (Nos. 2017M610177 and 2018T011222)+2 种基金the Doctoral Startup Foundation of Liaoning Province (No. 2019-BS-046)the Research Fund of Open Studio for Marine Corrosion and Protection,Pilot National Laboratory for Marine Science and Technology (Qingdao, No. HYFSKF-201804)the Fundamental Research Funds for the Central Universities (No. DUT19RC(4)003)。
文摘Graphene films(GFs) and graphene-reinforced nanocomposite coatings(GNCs) have received unprecedented attention for corrosion protection because graphene possesses a remarkable chemical inertness and is completely impermeable to aggressive chemicals. However, the high electric conductivity and positive potential of graphene make graphene-based metal protectors tend to exhibit an undesirable high corrosion-promotion activity(CPA), which is widely known as the phenomenon that graphene connecting with metal accelerates the corrosion of metal substrate by inducing micro-galvanic corrosion at the defect sites of GFs or GNCs in aggressive environments. Therefore, inhibiting the CPA of graphene is currently a key focus for the application of graphene in the field of corrosion protection. In this review, the mechanisms, influencing factors, and inhibition strategies of the CPA of GFs and GNCs are highlighted from the point of view of corrosion science to address the bottlenecks and challenges for future research and potential applications of graphene for corrosion protection.
基金the National Natural Science Foundation of China (GrantNo.39870015).
文摘The molecular basis for increasing of the glucoamylase (GLA) production of an Aspergillus niger mutant T21 was investigated . Northern blot analysis showed that the amount of glaA specific mRNA of A . niger T21 was about 20 times higher than that of its start strain A . niger AS 3.795. The two glaA promoter fusions (PglaA)-uidAs were respectively introduced into A . niger. Analysis of GUS activity of the transformants revealed that the PglaA activity of the strain T21 is about 3 times stronger than that of the strain AS 3.795. It is considered to be one of the reasons for the increase of glaA transcriptional level in the strain T21. However, comparing with the 20 times increase in the amount of glaA mRNA the alteration of trans regulation should be the most important reason for that. The results of deletion analysis of 5′-cis region of A . niger T21 glaA gene indicated that the region from - 408 to - 513 bp upstream of ATG is responsible for the high level expression of glaA.
基金the National Natural Science Foundation of China (Grant No. 39680024) and Tianjin Natural Science Foundation (Grant No. 993606011).
文摘Lmo2 is a T cell leukemia-related proto-oncogene, which belongs to the LIM protein family. Previous work has established its key role in yolk sac erythropoiesis and adult hematopoiesis, and it is also necessary for regulating angiogenesis. It has been demonstrated that this gene encodes a protein of 158 amino acids, consisting of two tandem cysteine-rich LIM domains, but the detailed mechanism of its transcriptional regulation remains to be elucidated. To further investigate the mechanism of transcriptional regulation of Lmo2, we combined SMART PCR technology with 5′RACE and found a novel post-transcriptional splicing form of Lmo2 in adult human kidney. This alternative transcript contains only two exons, encoding a smaller protein of 151 amino acids. Interestingly, it shares the same reading frame as the original Lmo2, but differs in 7 amino acids at the N-terminus. A genomic DNA fragment (from ?294 nts to +180 nts) containing the putative promoter region has been inserted into the luciferase reporter gene vector pGL3-basic and showed stable promoter activity when transfected into COS7. RT-PCR analysis revealed that this variant transcript was expressed widely in human tissues and cell lines, suggesting its potential basic functional importance.
基金financially supported by the National Special Science Research Program of China (grant no.2013CB967300)the National High Technology Research and Development Program "863”(grant no.2013AA102602-4)+2 种基金the National Key Research and Development Program of China (grant no.2016YFD0101902)National Transgenic Project of China (Grant No.2016ZX08010002-002)the National Natural Science Foundation (grant nos.31471515,31500232,31270328,30970243)
文摘Auxin and cytokinin direct cell proliferation and differentiation during the in vitro culture of plant cells, but the molecular basis of these processes, especially de novo shoot regeneration, has not been fully elucidated. Here, we describe the regulatory control of shoot regeneration in Arabidopsis thaliana(L.) Heynh, based on the interaction of ARABIDOPSIS RESPONSE REGULATOR12(ARR12) and WUSCHEL(WUS). The major site of ARR12 expression coincided with the location where the shoot apical meristem(SAM) initiated. The oar12 mutants showed severely impaired shoot regeneration and reduced responsiveness to cytokinin; consistent with this, the overexpression of ARR12 enhanced shoot regeneration.Certain shoot meristem specification genes, notably WUSCHEL(WUS) and CLAVATA3, were significantly downregulated in the arr1z explants. Chromatin immunoprecipitation(ChIP) and transient activation assays demonstrated that ARR12 binds to the promoter of WUS. These observations indicate that during shoot regeneration, in vitro, ARR12 functions as a molecular link between cytokinin signaling and the expression of shoot meristem specification genes.
文摘Subject Code:H16With the support by the National Natural Science Foundation of China,a study by the research groups led by Prof.Dong Chenfang(董辰方)from Zhejiang University School of Medicine demonstrates that AKR1B1promotes basal-like breast cancer progression by apositive feedback loop that activates the
文摘Green represents vitality;blue symbolizes opening.Magnificence blooms when'Jiangxi green'encounters'diplomacy blue'.In Sept 8,the Global Promotion of Jiangxi was held in the Blue Hall of the Ministry of Foreign Affairs in Beijing.This was the 10th Global Promotion for provinces held by the ministry.Ten represents perfection in Chinese culture.It is everybody’s expectation.
文摘Autophagy dysfunction is a common feature in neurodegenerative disorders caused by the accumulation of toxic,aggregate-prone proteins.Increasing evidence have demonstrated that genetic or pharmacological activation of transcription factor EB(TFEB),a master regulator of autophagy and lysosomal biogenesis,ameliorates neurotoxicity and rescues neurodegenerative phenotypes in several animal models of neurodegenerative diseases.
文摘Objective To explore whether CD137-CD137L signaling can promote angiogenesis in atherosclerosis plaque via activating nuclear factor of activated T cells c1(NFATc1).Methods Apolipoprotein E knock out mice were divided into the following groups:control group(n=5),CD137 activated group(n=5)and CD137 in-