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151.
Yang Sheng-Yuan Liu Shu-Min Jiang Min Wang Biao-Shi Peng Luo-Hui Zeng Chan 《Amino acids》2020,52(5):771-780
Amino Acids - Gamma-aminobutyric acid (GABA) biosynthesis depended to a great extent on the biotransformation characterization of glutamate decarboxylase (GAD) and process conditions. In this... 相似文献
152.
Hongyi Li Yajun Yin Chongqing Yang Min Chen Fang Wang Chao Ma Hua Li Yiya Kong Fusui Ji Jun Hu 《Cell proliferation》2020,53(2)
Fluid in interstitial spaces accounts for ~20% of an adult body weight and flows diffusively for a short range. Does it circulate around the body like vascular circulations? This bold conjecture has been debated for decades. As a conventional physiological concept, interstitial space is a micron‐sized space between cells and vasculature. Fluid in interstitial spaces is thought to be entrapped within interstitial matrix. However, our serial data have further defined a second space in interstitium that is a nanosized interfacial transport zone on a solid surface. Within this fine space, fluid along a solid fibre can be transported under a driving power and identically, interstitial fluid transport can be visualized by tracking the oriented fibres. Since 2006, our data from volunteers and cadavers have revealed a long‐distance extravascular pathway for interstitial fluid flow, comprising at least four types of anatomic distributions. The framework of each extravascular pathway contains the longitudinally assembled and oriented fibres, working as a fibrorail for fluid flow. Interestingly, our data showed that the movement of fluid in a fibrous pathway is in response to a dynamic driving source and named as dynamotaxis. By analysis of previous studies and our experimental results, a hypothesis of interstitial fluid circulatory system is proposed. 相似文献
153.
Nana Yang Qiao Cao Shuyang Hu Chenchen Xu Ke Fan Feifei Chen Cai-Guang Yang Haihua Liang Min Wu Taeok Bae Lefu Lan 《Molecular microbiology》2020,114(3):423-442
Intracellular protein degradation is essential for the survival of all organisms, but its role in interspecies interaction is unknown. Here, we show that the ClpXP protease of Pseudomonas aeruginosa suppresses its antimicrobial activity against Staphylococcus aureus, a common pathogen co-isolated with P. aeruginosa from polymicrobial human infections. Using proteomic, biochemical, and molecular genetic approaches, we found that this effect is due to the inhibitory effects of ClpXP on the quorum sensing (QS) of P. aeruginosa, mainly by degrading proteins (e.g., PhnA, PhnB, PqsR, and RhlI) which are critical for the production of QS signal molecules PQS and C4-HSL. We provide evidence that co-culturing with S. aureus induces a decrease in the activity of ClpXP in P. aeruginosa, an effect which was also achieved by the treatment of P. aeruginosa with N-acetylglucosamine (GlcNAc), a widespread chemical present on the surface of diverse cell types from bacteria to humans. These findings extend the range of biological events governed by proteolytic machinery to microbial community structure, thus also suggesting that a chemical-induced alteration of protein homeostasis is a mechanism for interspecies interactions. 相似文献
154.
Tietao Wang Yihang Qi Zhihan Wang Jingru Zhao Linxuan Ji Jun Li Zhao Cai Liang Yang Min Wu Haihua Liang 《Molecular microbiology》2020,114(5):857-869
The GntR family regulators are widely distributed in bacteria and play critical roles in metabolic processes and bacterial pathogenicity. In this study, we describe a GntR family protein encoded by PA4132 that we named MpaR (M vfR-mediated P QS and a nthranilate r egulator) for its regulation of Pseudomonas quinolone signal (PQS) production and anthranilate metabolism in Pseudomonas aeruginosa. The deletion of mpaR increased biofilm formation and reduced pyocyanin production. RNA sequencing analysis revealed that the mRNA levels of antABC encoding enzymes for the synthesis of catechol from anthranilate, a precursor of the PQS, were most affected by mpaR deletion. Data showed that MpaR directly activates the expression of mvfR, a master regulator of pqs system, and subsequently promotes PQS production. Accordingly, deletion of mpaR activates the expression of antABC genes, and thus, increases catechol production. We also demonstrated that MpaR represses the rhl quorum-sensing (QS) system, which has been shown to control antABC activity. These results suggested that MpaR function is integrated into the QS regulatory network. Moreover, mutation of mpaR promotes bacterial survival in a mouse model of acute pneumonia infection. Collectively, this study identified a novel regulator of pqs system, which coordinately controls anthranilate metabolism and bacterial virulence in P. aeruginosa. 相似文献
155.
156.
Hui Fang Xiuyi Fu Yuebin Wang Jing Xu Haiying Feng Weiya Li Jieting Xu Orawan Jittham Xuan Zhang Lili Zhang Ning Yang Gen Xu Min Wang Xiaowei Li Jiansheng Li Jianbing Yan Xiaohong Yang 《The Plant journal : for cell and molecular biology》2020,101(2):278-292
The nutritional traits of maize kernels are important for human and animal nutrition, and these traits have undergone selection to meet the diverse nutritional needs of humans. However, our knowledge of the genetic basis of selecting for kernel nutritional traits is limited. Here, we identified both single and epistatic quantitative trait loci (QTLs) that contributed to the differences of oil and carotenoid traits between maize and teosinte. Over half of teosinte alleles of single QTLs increased the values of the detected oil and carotenoid traits. Based on the pleiotropism or linkage information of the identified single QTLs, we constructed a trait–locus network to help clarify the genetic basis of correlations among oil and carotenoid traits. Furthermore, the selection features and evolutionary trajectories of the genes or loci underlying variations in oil and carotenoid traits revealed that these nutritional traits produced diverse selection events during maize domestication and improvement. To illustrate more, a mutator distance–relative transposable element (TE) in intron 1 of DXS2, which encoded a rate‐limiting enzyme in the methylerythritol phosphate pathway, was identified to increase carotenoid biosynthesis by enhancing DXS2 expression. This TE occurs in the grass teosinte, and has been found to have undergone selection during maize domestication and improvement, and is almost fixed in yellow maize. Our findings not only provide important insights into evolutionary changes in nutritional traits, but also highlight the feasibility of reintroducing back into commercial agricultural germplasm those nutritionally important genes hidden in wild relatives. 相似文献
157.
Xianhai Zhao Berit Ebert Baocai Zhang Huabin Liu Yutao Zhang Wei Zeng Carsten Rautengarten Huiling Li Xiaoyang Chen Antony Bacic Guodong Wang Shuzhen Men Yihua Zhou Joshua L. Heazlewood Ai‐Min Wu 《The Plant journal : for cell and molecular biology》2020,104(1):252-267
Rhamnogalacturonan‐II (RG‐II) is structurally the most complex glycan in higher plants, containing 13 different sugars and 21 distinct glycosidic linkages. Two monomeric RG‐II molecules can form an RG‐II‐borate diester dimer through the two apiosyl (Api) residues of side chain A to regulate cross‐linking of pectin in the cell wall. But the relationship of Api biosynthesis and RG‐II dimer is still unclear. In this study we investigated the two homologous UDP‐D‐apiose/UDP‐D‐xylose synthases (AXSs) in Arabidopsis thaliana that synthesize UDP‐D‐apiose (UDP‐Api). Both AXSs are ubiquitously expressed, while AXS2 has higher overall expression than AXS1 in the tissues analyzed. The homozygous axs double mutant is lethal, while heterozygous axs1/+ axs2 and axs1 axs2/+ mutants display intermediate phenotypes. The axs1/+ axs2 mutant plants are unable to set seed and die. By contrast, the axs1 axs2/+ mutant plants exhibit loss of shoot and root apical dominance. UDP‐Api content in axs1 axs2/+ mutants is decreased by 83%. The cell wall of axs1 axs2/+ mutant plants is thicker and contains less RG‐II‐borate complex than wild‐type Col‐0 plants. Taken together, these results provide direct evidence of the importance of AXSs for UDP‐Api and RG‐II‐borate complex formation in plant growth and development. 相似文献
158.
Hui Li Min Wang Weijun Li Linlin He Yuanyuan Zhou Jiantang Zhu Ronghui Che Marilyn L. Warburton Xiaohong Yang Jianbing Yan 《The Plant journal : for cell and molecular biology》2020,103(3):1089-1102
Traditional genetic studies focus on identifying genetic variants associated with the mean difference in a quantitative trait. Because genetic variants also influence phenotypic variation via heterogeneity, we conducted a variance‐heterogeneity genome‐wide association study to examine the contribution of variance heterogeneity to oil‐related quantitative traits. We identified 79 unique variance‐controlling single nucleotide polymorphisms (vSNPs) from the sequences of 77 candidate variance‐heterogeneity genes for 21 oil‐related traits using the Levene test (P < 1.0 × 10?5). About 30% of the candidate genes encode enzymes that work in lipid metabolic pathways, most of which define clear expression variance quantitative trait loci. Of the vSNPs specifically associated with the genetic variance heterogeneity of oil concentration, 89% can be explained by additional linked mean‐effects genetic variants. Furthermore, we demonstrated that gene × gene interactions play important roles in the formation of variance heterogeneity for fatty acid compositional traits. The interaction pattern was validated for one gene pair (GRMZM2G035341 and GRMZM2G152328) using yeast two‐hybrid and bimolecular fluorescent complementation analyses. Our findings have implications for uncovering the genetic basis of hidden additive genetic effects and epistatic interaction effects, and we indicate opportunities to stabilize efficient breeding and selection of high‐oil maize (Zea mays L.). 相似文献
159.
为探究玉米基部节间质量性状与茎秆强度形成的内在关系,该研究选用不同耐密性玉米品种为材料,采用随机区组设计,在田间条件下研究玉米基部节间形态特征、干物质积累的变化特点,分析茎秆内部木质素积累动态变化及其相关合成酶活性对茎秆强度形成的影响。结果表明:(1)耐密品种‘先玉335’基部节间单位长度干重(DWUL)和直径均较高,不同品种的茎秆强度快速形成时期有一定差异,与木质素的积累密切相关。(2)耐密品种茎秆穿刺强度(RPS)和木质素积累快速形成时期较不耐密品种‘新玉41’长5~7 d,穿刺强度高于不耐密品种24.9%~36.6%,其木质素积累量高于不耐密品种12.5%~47.0%,且RPS和木质素积累速率较不耐密品种快。(3)玉米抽雄期(VT)前是基部节间木质素快速积累的关键时期,玉米大喇叭口期(V12~V15)酶活性与抽雄期木质素积累量呈显著或极显著正相关,对茎秆强度形成至关重要。(4)在玉米12叶期耐密品种‘先玉335’的木质素合成相关酶均显著高于不耐密品种‘新玉41’,PAL、TAL、CAD和POD分别较‘新玉41’高1.85、0.30、0.11和0.42 U·mg-1。研究认为,玉米大喇叭口期茎秆干物质积累量较高、木质素合成相关酶的活性较强,能有效促进木质素的快速积累,增加茎秆抗倒伏强度,进而提高玉米茎秆抗倒伏能力。 相似文献
160.