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101.
Jia Xu Xinyu Guan Xiaodong Jia Hongyan Li Ruibing Chen Yinying Lu 《Molecular & cellular proteomics : MCP》2022,21(8):100255
Hepatocellular carcinoma (HCC) is the third most common cause of cancer-related death worldwide with limited therapeutic options. Comprehensive investigation of protein posttranslational modifications in HCC is still limited. Lysine acetylation is one of the most common types of posttranslational modification involved in many cellular processes and plays crucial roles in the regulation of cancer. In this study, we analyzed the proteome and K-acetylome in eight pairs of HCC tumors and normal adjacent tissues using a timsTOF Pro instrument. As a result, we identified 9219 K-acetylation sites in 2625 proteins, of which 1003 sites exhibited differential acetylation levels between tumors and normal adjacent tissues. Interestingly, many novel tumor-specific K-acetylation sites were characterized, for example, filamin A (K865), filamin B (K697), and cofilin (K19), suggesting altered activities of these cytoskeleton-modulating molecules, which may contribute to tumor metastasis. In addition, we observed an overall suppression of protein K-acetylation in HCC tumors, especially for enzymes from various metabolic pathways, for example, glycolysis, tricarboxylic acid cycle, and fatty acid metabolism. Moreover, the expression of deacetylase sirtuin 2 (SIRT2) was upregulated in HCC tumors, and its role of deacetylation in HCC cells was further explored by examining the impact of SIRT2 overexpression on the proteome and K-acetylome in Huh7 HCC cells. SIRT2 overexpression reduced K-acetylation of proteins involved in a wide range of cellular processes, including energy metabolism. Furthermore, cellular assays showed that overexpression of SIRT2 in HCC cells inhibited both glycolysis and oxidative phosphorylation. Taken together, our findings provide valuable information to better understand the roles of K-acetylation in HCC and to treat this disease by correcting the aberrant acetylation patterns. 相似文献
102.
不同性别类型黄瓜ACC合酶基因的单核苷酸多态性标记和酶切扩增长度多态性标记 总被引:7,自引:0,他引:7
黄瓜的性别分化与乙烯密切相关,1-氨基环丙烷-1-羧酸(ACC)合酶是乙烯生物合成过程中的关键酶.根据ACC合酶基因家族的保守序列设计PCR引物,从8个不同性别类型(雌雄同株、强雌性和全雌性)黄瓜品种中克隆了长度为1188bp的ACC合酶基因(CS-ACS2)片段(GenBank登记号为:DQ115884~DQ115886和DQ115875~DQ115879).经测序分析,3个雌雄同株性别类型品种的序列完全相同.与之相比,5个强雌性和全雌性品种中存在8个单核苷酸多态性(SNPs)标记,SNPs标记为4个A←→G和4个T←→C之间的转换.在8个SNPs中,有1个SNP位于内含子区域,其余7个SNPs都位于外显子区域.在7个位于外显子区域的SNPs中,有3个为非编码区的SNPs,4个为cSNPs.而在4个cSNPs中,有3个导致了编码的氨基酸序列改变.研究结果表明,与雌雄同株性别类型相比,雌性系中均存在单核苷酸的变异,这提示ACC合酶基因CS-ACS2的单核苷酸变异可能与黄瓜雌性系的发生形成有关.另一方面,根据SNP多态性还发展了一个酶切扩增长度多态性(CAPS)标记C-MT700.利用CAPS标记C-MT700能将强雌性优良品种MT-705与其他黄瓜品种相区别,该标记在黄瓜育种生产上具有一定的应用价值.此外,研究获得的SNPs标记和CAPS标记丰富了黄瓜的分子标记种类. 相似文献
103.
Atsushi Ishihara Fumio Matsuda Hisashi Miyagawa Kyo Wakasa 《Metabolomics : Official journal of the Metabolomic Society》2007,3(3):319-334
Advances in molecular breeding technologies have enabled manipulation of the concentrations of specific plant components by
modifying the genes that play a key role in their production. This has provided new opportunities to enhance the nutritional
quality of major crops. However, given that metabolic pathways form a highly integrated network, any alteration in a given
biosynthetic pathway is most likely to effect secondary and unpredicted changes in the metabolite profile of other pathways.
Metabolomics technologies can contribute to the efficient detection of such unexpected effects caused by genetic modification.
This has relevance not only from the perspective of safety evaluations of newly developed crops, but to basic science focused
on uncovering hitherto unknown regulatory mechanisms associated with the biosynthesis and catabolism of primary and secondary
metabolites in plants. In this review, recent advances in plant metabolic engineering for the overproduction of tryptophan
(Trp), one of the essential amino acids, are described. In particular, the efficacy of a transgene OASA1D that encodes a mutant anthranilate synthase (AS) α subunit of rice in specifically elevating levels of Trp without marked
secondary effects on the metabolite profile of rice is demonstrated. Related topics, such as regulation of Trp biosynthesis,
possible interactions between the biosyntheses of Trp and other aromatic amino acids, and translocation of Trp in are discussed
based on findings derived from metabolomic analyses of Trp-overproducing transgenic plants. 相似文献
104.
Malyan AN 《Biochemistry. Biokhimii?a》2007,72(7):728-734
This study of ATP and ADP binding to noncatalytic sites of membrane-bound CF1 (ATP synthase) revealed two noncatalytic sites with different specificities and affinities for nucleotides. One of these is characterized by a high affinity and specificity to ADP (Kd=2.6+/-0.3 microM). However, a certain increase in ADP apparent dissociation constant at high ATP/ADP ratio in the medium allows a possibility that ATP binds to this site as well. The other site displays high specificity to ATP. When the ADP-binding site is vacant, it shows a comparatively low affinity for ATP, which greatly increases with increasing ADP concentration accompanied by filling of the ADP-binding site. The reported specificities of these two sites are independent of thylakoid membrane energization, since both in the dark and in the light the ratios of ATP/ADP tightly bound to the noncatalytic sites were very close. The difference in noncatalytic site affinity for ATP and ADP is shown to depend on the amount of delta subunit in a particular sample. Thylakoid membrane ATP synthase, with stoichiometric content of delta-subunit (one delta-subunit per CF1 molecule), showed the maximal difference in ADP and ATP affinities for the noncatalytic sites. For CF1, with substoichiometric delta subunit values, this difference was less, and after delta subunit removal it decreased still more. 相似文献
105.
Blockade of L-type voltage-gated Ca channel inhibits ischemia-induced neurogenesis by down-regulating iNOS expression in adult mouse 总被引:3,自引:0,他引:3
Luo CX Zhu XJ Zhang AX Wang W Yang XM Liu SH Han X Sun J Zhang SG Lu Y Zhu DY 《Journal of neurochemistry》2005,94(4):1077-1086
Neurogenesis in the adult mammalian hippocampus may contribute to repairing the brain after injury. The signals that regulate neurogenesis in the dentate gyrus following ischemic stroke insult are not well known. We have previously reported that inducible nitric oxide synthase (iNOS) expression is necessary for ischemia-stimulated neurogenesis in the adult dentate gyrus. Here, we show that mice subjected to 90 min of middle cerebral artery occlusion (MCAO) significantly increased the number of new neurons and up-regulated iNOS expression in the dentate gyrus. Blockade of the L-type voltage-gated Ca(2+) channel (L-VGCC) prevented neurogenesis in the dentate gyrus and subventricular zone (SVZ), and down-regulated iNOS expression in the dentate gyrus after cerebral ischemia. This study suggests that Ca(2+) influx through L-VGCC is involved in ischemia-induced neurogenesis by up-regulating iNOS expression. 相似文献
106.
植物肌醇半乳糖苷合酶(galactinol synthase, GolS)是高等植物棉子糖类寡糖合成途径中的关键酶,为棉子糖系列寡糖提供活化的半乳糖基,调控植物体内棉子糖(raffinose, RFO)系列寡糖的生物合成与积累。编码该酶的基因属于糖基转移酶(glycosyltransferases, GTs)GT8基因家族的亚家族。GolS参与合成的最终产物棉子糖家族低聚糖(raffinose family oligosaccharides,RFOs)是植物中重要的碳水化合物存在形式,在细胞内可溶性强,可作为脱水保护剂;还能发挥稳定膜结构的作用。同时,GolS催化合成的直接产物肌醇半乳糖苷(galactinol)和RFOs都能作为羟基自由基捕获分子参与活性氧的清除。因此,GolS参与的代谢途径在植物碳同化物的贮存与运输、生物和非生物逆境响应、种子的脱水效应等生命过程中均发挥了重要作用。GolS基因结构差异与表达模式不同,导致不同GolS基因参与的生物学功能具有很大的差异。研究植物中不同GolS基因的结构特征,组织特异性表达特性及它们响应不同生长发育阶段、环境变化的表达特性,对了解GolS参与的生物学功能具有重要意义。同时,在分子生物学水平上,深入了解调控植物GolS基因的分子调控机制,为通过遗传工程或分子辅助育种等手段,利用GolS改良农林作物的经济性状提供理论支持。本文针对近年来植物中GolS基因的生理功能和调控机制的研究进行了综述。 相似文献
107.
108.
109.
Kimia Ekramzadeh Chantal Brämer Thore Frister Jörg Fohrer Andreas Kirschning Thomas Scheper Sascha Beutel 《Biotechnology progress》2020,36(2):e2935
The patchoulol synthase (PTS) from Pogostemon cablin is a versatile sesquiterpene synthase and produces more than 20 valuable sesquiterpenes by conversion of the natural substrate farnesyl pyrophosphate (FPP). PTS has the potential to be used as a biocatalyst for the production of valuable sesquiterpenes such as (−)-patchoulol. The objective of the present study is to develop an efficient biotransformation and to characterize the biocatalytic mechanism of the PTS in detail. For this purpose, soluble PTS was prepared using an optimized cultivation protocol and continuous downstream process with a purity of 98%. The PTS biotransformation was then optimized regarding buffer composition, pH-value, and temperature for biotransformation as well as functional and kinetic properties to improve productivity. For the bioconversion of FPP, the highest enzyme activity was reached with the 2-(N-morphlino)ethanesulfonic acid (MES) buffer containing 10% (v/v) glycerol and 10 mM MgCl2 at pH 6.4 and 34°C. The PTS showed an unusual substrate inhibition for sesquiterpene synthases indicating an intermediate sesquiterpene formed in the active center. Deuteration experiments were used to gain further insights into the biocatalytic mechanism described in literature. Thus it could be shown that a second substrate binding site must be responsible for substrate inhibition and that further protonation and deprotonation steps are involved in the reaction mechanism. 相似文献
110.
《Biotechnic & histochemistry》2013,88(5):333-339
AbstractWe studied the interactions between apoptosis regulator proteins (Bcl-2, p53 and caspase-9) and neuronal nitric oxide in vasopressinergic magnocellular centers of the hypothalamus using neuronal nitric oxide synthase (nNOS) gene knockout mice. nNOS gene deletion resulted in accumulation of Bcl-2, p53 and caspase-9 in the paraventricular (PVN) and supraoptic (SON) nuclei in controls. Dehydration increased the levels of all three apoptosis regulator proteins studied in nuclei of wild type mice. In the hypothalamus magnocellular centers of nNOS knockout mice, however, expression of Bcl-2, p53 and caspase-9 was unchanged after dehydration. The number of magnocellular neurons did not change in the SON and PVN of nNOS deficient mice compared to wild type, and after dehydration, cell death was not observed in either nucleus of wild type or knockout mice despite activation of apoptosis regulator protein expression. Thus, we demonstrated that gene disruption of nNOS prevents activation of Bcl-2, p53 and caspase-9 expression during water deprivation, and that nNOS deficiency did not affect survival of magnocellular neurons of the hypothalamus. 相似文献