作物分枝的分子调控研究进展

分枝的数量及角度是决定作物株型的重要农艺性状.有效分枝数决定着作物的穗数或荚果数,进而决定着作物的产量;而分枝角度与光合效率、种植密度和抗病性密切相关,不仅影响作物的产量,也会影响作物的品质.由于分枝在作物生产中具有十分重要的作用,吸引了越来越多的研究者的注意,多个与分枝性状相关的关键基因被鉴定,分枝数目调控的分子机制...     

定向进化提高来源于Arthrobacter ramosus的MTHase的热稳定性

麦芽寡糖基海藻糖水解酶(mahosyhrehalose hydrolase,MTHase)是以淀粉或麦芽糊精为底物制备海藻糖的关键酶之一.来源于Arthrobacter ramosus的MTHase,表达量好,比活高,但热稳定性差,限制了其工业化应用.采用定向进化技术,筛选得到L137M和A216T两个突变体,在60℃...     

果蝇程序化死亡基因5(PDCD5)同源cDNA的克隆和序列分析

 为了解人类白血病细胞凋亡相关新基因 TFAR1 9(PDCD5,programmed cell death5)在不同种属间的序列同源性 ,利用 EST(expression sequence tag)拼接、RT- PCR、DNA序列测定技术及计算机分析技术 ,首次成功地进行了果蝇 PDCD5同源 c DNA编码区基因克隆和序列分析 .发现果蝇与小鼠及果蝇与人 PDCD5在核苷酸水平上分别有 57.5%和 57.1 %的同源性 ,在氨基酸水平上分别有 46.8%和 46.4%的同源性 .功能区分析发现 ,果蝇 PDCD5c DNA编码 1 33个氨基酸 ,计算机预测可能是一种核蛋白 ,含 5个可能的酪蛋白激酶 (casein kinase )磷酸化位点 ,2个可能的 PKC磷酸化位点 ,与人 PDCD5的功能区类似 .因而果蝇 PDCD5是与人 PDCD5同源的新基因 ,可能都与细胞程序化死亡相关 .     

地方认同视角下居民对农业文化遗产认知及保护态度——以福州茉莉花与茶文化系统为例

居民对农业文化遗产的认知态度影响其行为选择,并对农业文化遗产的保护及可持续发展具有重要意义。基于人文地理学及环境心理学领域的地方认同理论,选择历史认同、现实认同、情感认同及行为认同4个维度变量,通过问卷调查,以福州居民对全球重要农业文化遗产"福州茉莉花与茶文化系统"的认知及保护态度作为研究对象,并通过构建福州居民农业文化遗产认知及保护规律定量分析居民认知态度、保护行为与人口特征之间的关系。结果表明:(1)福州居民对茉莉花与茶文化系统的行为认同维度得分高于其他维度,且福州市民各维度得分均高于外来居民;(2)受访居民对农业文化遗产的地方认同与其年龄、受教育水平、收入水平及在福州居住时间长短的关系较为密切;(3)通过构建福州居民农业文化遗产认知及保护规律发现,福州居民对农业文化遗产的保护行为主要受其对该遗产项目认知态度的影响,与居民人口特征相关性较弱。拓展农业文化遗产领域的研究视角及方法,促进农业文化遗产地动态保护与可持续发展具有参考价值。     

Sequence comparison of rat liver phenylalanine hydroxylase and its cDNA clones

Classical phenylketonuria, an inborn error in metabolism, is caused by a deficiency of the hepatic enzyme phenylalanine hydroxylase. The identification of putative cDNA clones coding for rat liver phenylalanine hydroxylase by hybrid-selected translation has previously been reported [Robson, K. J., Chandra, T., MacGillivray, R. T. A., & Woo, S. L. C. (1982) Proc. Natl. Acad. Sci. U.S.A. 79, 4701-4705]. The authenticity of the clones, however, could not be definitively ascertained at the time because of a lack of amino acid sequence data of the enzyme in the literature. Purified rat liver phenylalanine hydroxylase was subjected to cyanogen bromide treatment, and the resulting fragments were used for N-terminal amino acid sequence analysis. The partial amino acid sequence was then compared to that deduced from an open reading frame in the nucleotide sequence of the cDNA clones. A perfect match of 17 amino acid residues was found between the two sequences following a unique methionine codon present in the nucleotide sequence, thereby providing unambiguous evidence for the identity of the rat liver phenylalanine hydroxylase cDNA clones.     

Targeted deletion of LPA5 identifies novel roles for lysophosphatidic acid signaling in development of neuropathic pain

Lysophosphatidic acid (LPA) is a bioactive lipid that serves as an extracellular signaling molecule acting through cognate G protein-coupled receptors designated LPA(1-6) that mediate a wide range of both normal and pathological effects. Previously, LPA(1), a G(αi)-coupled receptor (which also couples to other G(α) proteins) to reduce cAMP, was shown to be essential for the initiation of neuropathic pain in the partial sciatic nerve ligation (PSNL) mouse model. Subsequent gene expression studies identified LPA(5), a G(α12/13)- and G(q)-coupled receptor that increases cAMP, in a subset of dorsal root ganglion neurons and also within neurons of the spinal cord dorsal horn in a pattern complementing, yet distinct from LPA(1), suggesting its possible involvement in neuropathic pain. We therefore generated an Lpar5 null mutant by targeted deletion followed by PSNL challenge. Homozygous null mutants did not show obvious base-line phenotypic defects. However, following PSNL, LPA(5)-deficient mice were protected from developing neuropathic pain. They also showed reduced phosphorylated cAMP response element-binding protein expression within neurons of the dorsal horn despite continued up-regulation of the characteristic pain-related markers Caα(2)δ(1) and glial fibrillary acidic protein, results that were distinct from those previously observed for LPA(1) deletion. These data expand the influences of LPA signaling in neuropathic pain through a second LPA receptor subtype, LPA(5), involving a mechanistically distinct downstream signaling pathway compared with LPA(1).     

Distal NF-kB binding motif functions as an enhancer for nontypeable H. influenzae-induced DEFB4 regulation in epithelial cells

Among the antimicrobial molecules produced by epithelial cells, DEFB4 is inducible in response to proinflammatory signals such as cytokines and bacterial molecules. Nontypeable Haemophilus influenzae (NTHi) is an important human pathogen that exacerbates chronic obstructive pulmonary disease in adult and causes otitis media and sinusitis in children. Previously, we have demonstrated that DEFB4 effectively kills NTHi and is induced by NTHi via TLR2 signaling. The 5′-flanking region of DEFB4 contains several NF-κB binding motifs, but their NTHi-specific activity remains unclear. In this study, we aimed to elucidate molecular mechanism involved in DEFB4 regulation, focusing on the role of the distal NF-κB binding motif of DEFB4 responding to NTHi. Here, we show that the human middle ear epithelial cells up-regulate DEFB4 expression in response to NTHi via NF-κB activation mediated by IκKα/β−IκBα signaling. Deletion of the distal NF-κB binding motif led to a significant reduction in NTHi-induced DEFB4 up-regulation. A heterologous construct containing the distal NF-κB binding motif was found to increase the promoter activity in response to NTHi, indicating a NTHi-responding enhancer activity of the distal NF-κB binding motif. Furthermore, electrophoretic mobility shift assays and chromatin immunoprecipitation assays showed that the p65 domain of NF-κB binds to the distal NF-κB binding motif in response to NTHi. Taken together, our results suggest that NTHi-induced binding of p65 NF-κB to the distal NF-κB binding motif of DEFB4 enhances NTHi-induced DEFB4 regulation in epithelial cells.