产品名称 人V型质子ATP酶亚基AATP6V1A elisa试剂盒 产品规格 48T 96T 有效成分含量 99 检测方法 酶联免疫法 样本 血清,血浆,尿液,组织,细胞上清 保质期 6个月 标记物 检测抗原-HRP 储存条件 2-8℃, 用途范围 仅供研究使用,不得用于临床实验或人体实验 是否进口 否 包装规格 48T 灵敏度 最...
V-ATPase编码基因分为多个家族,包括ATP6V0、ATP6V1、ATP6V1A等。这些基因的突变或功能异常与一些疾病的发生和发展关系密切,如肾小管酸中毒、多囊肾等。对V-ATPase蛋白和其编码基因的研究有助于深入了解细胞内部调节机制以及相关疾病的发病机制,为治疗和预防相关疾病提供了新的思路和靶点。
10.2.本发明通过检测4月龄小鼠尿液中v-atpase含量,与wt型小鼠相比,app/ps1小鼠尿液中v-atpase的含量增加。蛋白免疫印迹(wb)实验检测到4月龄app/ps1小鼠海马部位的atp6v1a、atp6v0a1表达水平降低。 11.3.本发明4月龄app/ps1小鼠在淀粉样斑块及学习记忆障碍出现之前,app/ps1小鼠已经出现了v-atpase变化。证实v-atpase...
We report that V-ATPase is present in the olfactory epithelium, where we detected subunits ATP6V1A (the 70-kDa "A" subunit) and ATP6V1E2 (the 31-kDa "E" subunit) in olfactory sensory neurons, sustentacular cells, and Bowman's glands. We also located both isoforms of the 56-kDa B ...
Define ATP6V0A1. ATP6V0A1 synonyms, ATP6V0A1 pronunciation, ATP6V0A1 translation, English dictionary definition of ATP6V0A1. or adj 1. in good health; physically fit 2. informal first-class; excellent 3. with hull and equipment in first-class condition C
5 of these (ATP6V0D2, ATP6V0C, ATP6AP1, ATP6AP2, ATP6V0A1) were scored with low probability (SAINT < 0.67). All are from the transmembrane V0 sector of the V-ATPase and based on current structural models do not interact with the V-ATPase B1 subunit directly. In addi...
基因ATP6V1A 长基因名称ATPase H+转运V1亚单位A 同义基因VPP2 ATP6A1 ATP6V1A1 同义基因名称ATPase,H+转运,溶酶体(空泡质子泵),α多肽,70kD,异构酶1,H+转运,溶酶体70kDa,V1亚单位A 同义词Vma1 VA68 GenBank acession L09235 位点3q13.31
ATP6V0CATP6V0CATP6V0CVATL, Vma3 ATP6V0A4ATP6V0A4ATP6V0A4a4, RDRTA2, RTADR, Stv1, Vph1, VPP2 ATP6V1E1 蛋白 ATP6V1E1 蛋白的功能 Subunit of the peripheral V1 complex of vacuolar ATPase essential for assembly or catalytic function. V-ATPase is responsible for acidifying a variet...
基因别名: AI647066; ATP6A1; Atp6a2; ATP6V1A; ATP6V1A1; HO68; VA68; Vma1; VPP2 UniProt ID: (Human) P38606, (Mouse) P50516 Entrez Gene ID: (Human) 523, (Mouse) 11964, (Rat) 685232 功能 ATP binding proton-transporting ATPase activity, rotational mechanism nucleotide binding ...
1与v-ATPase亚基Atp6v0d1具有相互作用,DDRGK1通过调控蛋白酶体降解途径来维持Atp6v0d1和Atp6v1a的正常表达,DDRGK1缺失则导致两者的异常积累,而v-ATPase亚基的... 曹言 - 南京农业大学 被引量: 0发表: 2022年 细菌效应蛋白揭示V-ATPase-ATG16L1通路介导异源自噬的研究 文章简介真核细胞通过选择性自噬的方式...