ER–associateddegradation(ERAD)Pathway
The endoplasmic reticulum (ER) of the cell operates a quality control system that identifies misfolded proteins, transports them into the cytoplasm and then targets them for degradation by the proteasome. Aberrant protein degradation is the mechanism underlying many diseases, including cystic fibrosis and heritable forms of lung and liver disease. The pathways that orchestrate the destruction of aberrant proteins are......阅读全文
Chaperones-modulate-interferon-Signaling-Pathway
Signaling by interferon-gamma stimulates anti-viral responses and tumor suppression through the heterodimeric interferon-gamma receptor. Signaling is
TNFR1-Signaling-Pathway
TNFR1 (a.k.a. p55, CD120a) is the receptor for TNF(alpha) and also will bind TNF(beta). Upon binding TNF(alpha) a TNFR1+ cell is triggered to undergo
Oxidative-reactions-of-the-pentose-phosphate-pathway
One form of chemical energy used to drive biosynthetic reactions forward is the reducing power of the energy carrier NADPH. NADPH is essential to driv
NFkB-Signaling-Pathway
Nuclear factor kB (NF-kB) is a nuclear transcription factor that regulates expression of a large number of genes that are critical for the regulation
Platelet-Amyloid-Precursor-Protein-Pathway
The amyloid -beta peptide (Ab), a proteolytic fragment of amyloid precursor protein (APP), is the major componenet of senile plaques, the hallmark of
T-Cell-Receptor-Signaling-Pathway
The T Cell Receptor plays a key role in the immune system. The specificity of the receptor is governed by the binding site formed from the mature alph
TollLike-Receptor-Pathway
The innate immune response responds in a general manner to factors present in invading pathogens. Bacterial factors such as lipopolysaccharides (LPS,
Msp/Ron-Receptor-Signaling-Pathway
MSP, macrophage-stimulating protein, acts through the transmembrane receptor kinase RON (Stk in mice) to play a role in inflammation and the response
TNFR2-Signaling-Pathway
TNFR2 is the receptor for the 171 amino acid 19 kD TNF(beta) (a.k.a. lymphotoxin). TNF(beta) is produced by activated lymphocytes and can be cytotoxic
关于ER34615电池的基本介绍
ER34615是容量型的电池型号,有时候写成ER34615H,一般还是省略,也称为D型电池。这种电池是碳包式圆柱形电池,适合为低、中等放电电设计的,不得高于C/100率放电(C是指一只电池的容量,如这种电池的标称容量为19Ah,1C就是19Ah)。这种电池具有高比能量,例如,D型电池ER3461
ER34615电池的评定测试介绍
一个电池可以用下列指标来表示其特性: 1、 有效容量 质量(体积)的容量A·h/kg或A·h/dm³; 2、 有效能量 比能量(体积比能量)W·h/kg或W·h/dm³; 3、 输出功率 比功率 W/kg W/dm³; P=U(电压)×I(电流) U=I×R(电阻)
简述ER34615电池的工作性能
关于电池的结构和性能,在锂亚硫酰氯电池已有详细的介绍可参考。在这说明一下它的主要性能,此电池为全密封结构不锈钢钢壳包装,工作温度在—55℃到85℃,电压范围在2.0至3.6V之间。额定容量为19Ah,这是在20℃下,使用3mA放电至2.0V时测试出来的。这种电池不同方向放置也会影响电池放电的容量
Phospholipid-Biosynthesis-in-E.-Coli-Pathway
The biosynthesis of membrane phospholipids occurs through distinct pathways in mammals and bacteria. In the mammalian pathway for the synthesis of pho
CD40L-Signaling-Pathway
The CD40 receptor was first associated with expression in B cells and the role it plays through its ligand CD40L (CD154) in moderating T cell activati
Rac-1-cell-motility-signaling-pathway
Rac-1 is a small G-protein in the Rho family that regulates cell motility in response to extracellular signals. Several changes in cytoskeletal struct
FAS-signaling-pathway-(-CD95-)
Receptors in the TNF receptor family are associated with the induction of apoptosis, as well as inflammatory signaling. The Fas receptor (CD95) mediat
SODD/TNFR1-Signaling-Pathway
The tumor necrosis factor (TNF) receptor superfamily contains several members with homologous cytoplasmic domains known as death domains (DD). The int
p38-MAPK-Signaling-Pathway
p38 MAPKs are members of the MAPK family that are activated by a variety of environmental stresses and inflammatory cytokines. Stress signals are deli
D4GDI-Signaling-Pathway
D4-GDI (GDP dissociation inhibitor) is a negative regulator of the ras related Rho Family of GTPases. Since the rho GTPases promote cytoskeletal and m
LATS1/2究竟如何调控ERα?
Nature争鸣 | 一场关于乳腺癌细胞命运决定的争论: 细胞命运的紊乱是许多人类疾病的基础,其中也包括乳腺癌。然而,乳腺细胞命运的调节机制在很大程度上是未知的。乳腺上皮由分化的管腔上皮细胞和基底肌上皮细胞,以及未分化的干细胞和更多限制性祖细胞组成,乳腺癌起源于此,但乳腺上皮层次结构的分子机制
ER34615电池的消除电池滞后介绍
锂负极与电解液接触是,可以在锂表面形成一层LiCl保护膜,使得锂负极变得稳定起来,这是Li/SOCl2电池贮存寿命长的根本原因。下面是几种被认为有有效的缓解和消除电池滞后飞方法。也可以采用锂锰系列的电池进行替他。只是锂锰电池D型的和锂亚电池D型相比,电压是3.0V,容量稍小一些,如果是要更加大电
简述ER34615电池的使用寿命
很多时候这种ER34615是几只组合在一块供电,作为备用电源,它的储存寿命超过10年。有公司声称他们的这种型号电池保存寿命可达到15~20年,不过这个时间是不保证的,期望值和可能达到的。这主要是由于此电池的自放电率很低,每年在1%左右。锂负极与电解液接触是,可以在锂表面形成一层LiCl保护膜,使
ER34615M型电池的性能介绍
ER34615M型号的电池,额定容量为14.5Ah,这是在20℃的常温下,使用10mA放电至2.0V时候得到的容量。电池重量在107克左右,使用温度在—55℃到85℃,储存温度最高不超过30℃。最大持续放电电流可达2000mA,脉冲放电能力最大可达3000mA,这个与一系列的使用状态和工作环境都
关于ER34615M电池的基本介绍
ER34615M是D型的功率型电池,M是表示功率型的。使用螺旋卷绕式电极结构设计的中等至高放电率的Li/SOCl2电池可从Able获得。这些电池主要是为了满足军用目的而设计的,如有大电流输出和低温工作等需要的场合。有同样使用要求的工业领域也仍然在使用这类电池。这种型号的锂亚电池典型结构是这样的:
Tumor-Suppressor-Arf-Inhibits-Ribosomal-Biogenesis
Cyclin-dependent kinase inhibitor-2A (CDKN2A) goes by the colloquial designation p16, which is sometimes referred to as p16(INK4). The alpha transcrip
E2F1-Destruction-Pathway
E2F-1 is a transcription factor that regulates the expression of genes involved in the cell cycle and that is involved in progression of the cell cycl
RNAi原理图解
The Mechanism of RNA Interference (RNAi)Long double-stranded RNAs (dsRNAs; typically >200 nt) can be used to silence the expression of target genes in
PCSK6基因编码的功能和结构描述
该基因编码枯草杆菌素样前蛋白转化酶家族的一个成员,该家族包括通过分泌途径的调节分支或组成分支处理蛋白质和肽前体贩运的蛋白酶它编码1型膜结合蛋白酶,在许多组织中表达,包括神经内分泌、肝脏、肠道和大脑。编码的蛋白质在内质网中经历一个初始的自催化处理事件,然后通过内质体分类到反高尔基网络,在那里发生第二个
PCSK6基因编码的功能和结构描述
该基因编码枯草杆菌素样前蛋白转化酶家族的一个成员,该家族包括通过分泌途径的调节分支或组成分支处理蛋白质和肽前体贩运的蛋白酶它编码1型膜结合蛋白酶,在许多组织中表达,包括神经内分泌、肝脏、肠道和大脑。编码的蛋白质在内质网中经历一个初始的自催化处理事件,然后通过内质体分类到反高尔基网络,在那里发生第二个
PCSK7基因突变因子与药物介绍
该基因编码枯草杆菌素样前蛋白转化酶家族的一个成员,该家族包括通过分泌途径的调节分支或组成分支处理蛋白质和肽前体贩运的蛋白酶它编码1型膜结合蛋白酶,在许多组织中表达,包括神经内分泌、肝脏、肠道和大脑。编码的蛋白质在内质网中经历一个初始的自催化处理事件,然后通过内质体分类到反高尔基网络,在那里发生第二个