钠碘转运体蛋白8抗体价格

抗体名 ：钠碘转运体蛋白8抗体价格

抗体英文名 ：Anti-SLC5A8

靶点 ：详见说明书

浓度 ：1mg/1ml

应用范围 ：产品应用 WB=1:100-500 ELISA=1:500-1000 IP=1:20-100 IHC-P=1:100-500 IHC-F=1:100-500 Flow-Cyt=1:100-500 IF=1:100-500

宿主 ：详见说明书

供应商 ：上海一研

库存 ：40

级别 ：详见说明书

目录编号 ：详见说明书

抗原来源 ：Rabbit

保质期 ：详见说明书

适应物种 ：详见说明书

标记物 ：详见说明书

克隆性 ：多克隆

保存条件 ：Store at -20 °C

形态 ：详见说明书

亚型 ：IgG

免疫原 ：KLH conjugated synthetic peptide derived from human SLC5A8

规格 ：0.2ml/200μg

钠碘转运体蛋白8抗体价格英文名称  Anti-SLC5A8
中文名称 钠碘转运体蛋白8抗体价格
别    名 别 名 AIT; Apical iodide transporter; Electrogenic sodium monocarboxylate cotransporter; SC5A8_HUMAN; SLC5A8; SMCT; SMCT1; sodium coupled monocarboxylate transporter 1; Sodium iodide related cotransporter; Sodium iodide-related cotransporter; Sodium-coupled monocarboxylate transporter 1; solute carrier family 5 iodide transporter member 8; Solute carrier family 5 member 8.

浓 度 1mg/1ml
规 格 0.2ml/200μg
抗体来源 Rabbit
克隆类型 polyclonal
交叉反应 Human, Mouse, Rat, Chicken, Dog, Cow
产品类型 一抗
研究领域 肿瘤 细胞生物 神经生物学 信号转导 细胞凋亡
蛋白分子量 predicted molecular weight：
67kDa  
性 状 Lyophilized or Liquid
免 疫 原 KLH conjugated synthetic peptide derived from human SLC5A8
亚 型 IgG
纯化方法 affinity purified by Protein A
储 存 液 0.01M PBS, pH 7.4 with 10 mg/ml BSA and 0.1% Sodium azide
产品应用 WB=1:100-500 ELISA=1:500-1000 IP=1:20-100 IHC-P=1:100-500 IHC-F=1:100-500 Flow-Cyt=1:100-500 IF=1:100-500
（石蜡切片需做抗原修复）
not yet tested in other applications.
optimal dilutions/concentrations should be determined by the end user.
保存条件 Store at -20 °C for one year. Avoid repeated freeze/thaw cycles. The lyophilized antibody is stable at room temperature for at least one month and for greater than a year when kept at -20°C. When reconstituted in sterile pH 7.4 0.01M PBS or diluent of antibody the antibody is stable for at least two weeks at 2-4 °C.
Important Note This product as supplied is intended for research use only, not for use in human, therapeutic or diagnostic applications.
产品介绍 Acts as an electrogenic sodium (Na(+)) and chloride (Cl-)-dependent sodium-coupled solute transporter, including transport of monocarboxylates (short-chain fatty acids including L-lactate, D-lactate, pyruvate, acetate, propionate, valerate and butyrate), lactate, mocarboxylate drugs (nicotinate, benzoate, salicylate and 5-aminosalicylate) and ketone bodies (beta-D-hydroxybutyrate, acetoacetate and alpha-ketoisocaproate), with a Na(+):substrate stoichiometry of between 4:1 and 2:1. Catalyzes passive carrier mediated diffusion of iodide. Mediates iodide transport from the thyrocyte into the colloid lumen through the apical membrane. May be responsible for the absorption of D-lactate and monocarboxylate drugs from the intestinal tract. Acts as a tumor suppressor, suppressing colony formation in colon cancer, prostate cancer and glioma cell lines. May play a critical role in the entry of L-lactate and ketone bodies into neurons by a process driven by an electrochemical Na(+) gradient and hence contribute to the maintenance of the energy status and function of neurons.
Function : Acts as an electrogenic sodium (Na(+)) and chloride (Cl-)-dependent sodium-coupled solute transporter, including transport of monocarboxylates (short-chain fatty acids including L-lactate, D-lactate, pyruvate, acetate, propionate, valerate and butyrate), lactate, mocarboxylate drugs (nicotinate, benzoate, salicylate and 5-aminosalicylate) and ketone bodies (beta-D-hydroxybutyrate, acetoacetate and alpha-ketoisocaproate), with a Na(+):substrate stoichiometry of between 4:1 and 2:1. Catalyzes passive carrier mediated diffusion of iodide. Mediates iodide transport from the thyrocyte into the colloid lumen through the apical membrane. May be responsible for the absorption of D-lactate and monocarboxylate drugs from the intestinal tract. Acts as a tumor suppressor, suppressing colony formation in colon cancer, prostate cancer and glioma cell lines. May play a critical role in the entry of L-lactate and ketone bodies into neurons by a process driven by an electrochemical Na(+) gradient and hence contribute to the maintenance of the energy status and function of neurons.
Subcellular Location ：
Apical cell membrane; Multi-pass membrane protein.  
Tissue Specificity ：
Expressed in normal thyroid, localized at the apical pole of thyroid cells facing the colloid lumen, but expression profoundly decreased in thyroid carcinomas. Expressed in normal colon but absent in colon aberrant crypt foci and colon cancers. Present in normal kidney cortex, brain, prostate, gastric mucosa and breast tissue but was significantly down-regulated in primary gliomas, gastric cancer, prostate tumors and breast tumors.  
Similarity : Belongs to the sodium:solute symporter (SSF) (TC 2.A.21) family.
钠碘转运体蛋白8抗体价格技术外包服务:
★分子生物学：质粒抽提、PCR、Q-PCR、RT-PCR、分子生物学：基因合成、引物合成、基因测序、载体构建等
★蛋白工程：原核、哺乳动物蛋白表达系统等
★病毒包装：腺病毒、慢病毒等
★抗体工程：磁珠分选、病理染色、WB、ELISA、IP、IF、IHC、FACS、Confocal等等
★细胞工程：细胞表型分析(凋亡、增殖、周期、迁移、侵袭、修复、克隆形成)、细胞培养、细胞膜制备、稳定细胞株构建、细胞RNAi技术等等。
钠碘转运体蛋白8抗体价格抗体的生物素化标记实验要点：
1.如在反应混合液中有叠氮钠或游离氨基存在,会抑制标记反应。因此,蛋白质在反应前要对 0.1mol/L碳酸氢钠缓冲液或0.5mol/L缓冲液充分透析；
2.所用的NHSB及待生物素化蛋白质之间的分子比按蛋白质表面的ε-氨基的密度会有所不同,选择不当则影响标记的效率,应先用几个不同的分子比来筛选最适条件；
3.用NHSB量过量也是不利的,抗原的结合位点可能因此被封闭,导致抗体失活；
4.由于抗体的氨基不易接近可能造成生物素化不足,此时可加入去污剂如 Triton x-100, Tween20等；
5.当游离ε-氨基(赖氨酸残基的氨基)存在于抗体的抗原结合位点时,或位于酶的催化位点时,生物素化会降低或损伤抗体蛋白的结合力或活性；
6.生物素还可能与不同的功能基团,如羰基、氨基、巯基、异咪唑基及基,也可与糖基共价结合；
7.交联反应后,应充分透析,否则,残余的生物素会对生物素化抗体与亲和素的结合产生竞争作用；
8.在细胞的荧光标记实验中,中和亲和素的本底低,但由于链霉亲和素含有少量正电荷,故对某些细胞可导致高本底。
CM-H008人气管上皮细胞完全培养基100mL
ADAM17 Others Rat 大鼠 ADAM17 人细胞裂解液 (阳性对照)
原代神经胶质细胞特制基础培养基Many types of cells包装：500/250/100ml
6T-CEM细胞，人T细胞白血病细胞 绿色荧光蛋白标记小鼠子细胞,U14-GFP细胞 前脂肪细胞分化培养基PADM-prf
NCI-H1703(人肺鳞癌细胞) 5×106cells/瓶×2
BHK-21(仓鼠肾细胞) 5×106cells/瓶×2 CM-M022小鼠甲状腺上皮细胞完全培养基100mL 人B淋巴细胞瘤细胞;RAMOS
钠碘转运体蛋白8抗体价格NCI-H446(人小细胞肺癌细胞)   5×106cells/瓶×2
NCI-H520(人肺鳞癌细胞)   5×106cells/瓶×2
NCI-H524(人非小细胞肺癌细胞)   5×106cells/瓶×2
NCI-H596(人肺腺鳞癌细胞)   5×106cells/瓶×2
钠碘转运体蛋白8抗体价格抗体的鉴定：
1）抗体的效价鉴定：不管是用于诊断还是用于治疗,制备抗体的目的都是要求较高效价。不同的抗原制备的抗体,要求的效价不一。鉴定效价的方法很多,包括有试管凝集反应,琼脂扩散试验,酶联免疫吸附试验等。常用的抗原所制备的抗体一般都有约成的鉴定效价的方法,以资比较。如制备抗抗体的效价,一般就采用琼脂扩散试验来鉴定。
2）抗体的特异性鉴定：抗体的特异性是指与相应抗原或近似抗原物质的识别能力。抗体的特异性高,它的识别能力就强。衡量特异性通常以交叉反应率来表示。交叉反应率可用竞争抑制试验测定。以不同浓度抗原和近似抗原分别做竞争抑制曲线,计算各自的结合率,求出各自在IC50时的浓度,并按公式计算交叉反应率。 
如果所用抗原浓度IC50浓度为pg/管,而一些近似抗原物质的IC50浓度几乎是无穷大时,表示这一抗血清与其他抗原物质的交叉反应率近似为0,即该血清的特异性较好。
3）抗体亲和力：是指抗体和抗原结合的牢固程度。亲和力的高低是由抗原分子的大小,抗体分子的结合位点与抗原决定簇之间立体构型的合适度决定的。有助于维持抗原抗体复合物稳定的分子间力有氢键,疏水键,侧链相反电荷基因的库仑力,范德华力和空间斥力。亲和力常以亲和常数K表示,K的单位是L/mol。抗体亲和力的测定对抗体的筛选,确定抗体的用途,验证抗体的均一性等均有重要意义。