Analytical Data
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基因名
SLC16A8
- Application
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别名
SLC16A8;MCT3;Monocarboxylate transporter 3
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种属
Human
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表达系统
E. coli
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标签
His tag N-Terminus
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纯度
Greater than 90% as determined by SDS-PAGE.
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蛋白编号
O95907
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表达区间
1-504aa
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氨基酸序列
MGAGGPRRGEGPPDGGWGWVVLGACFVVTGFAYGFPKAVSVFFRALMRDFDAGYSDTAWVSSIMLAMLYGTGPVSSILVTRFGCRPVMLAGGLLASAGMILASFATRLLELYLTAGVLTGLGLALNFQPSLIMLGLYFERRRPLANGLAAAGSPVFLSALSPLGQQLLERFGWRGGFLLLGGLLLHCCACGAVMRPPPGPGPRPRRDSAGDRAGDAPGEAEADGAGLQLREASPRVRPRRRLLDLAVCTDRAFAVYAVTKFLMALGLFVPAILLVNYAKDAGVPDTDAAFLLSIVGFVDIVARPACGALAGLARLRPHVPYLFSLALLANGLTDLSSARARSYGALVAFCVAFGLSYGMVGALQFEVLMAAVGAPRFPSALGLVLLVEAAAVLIGPPSAGRLVDVLKNYEIIFYLAGSEVALAGVFMAVATNCCLRCAKAAPSGPGTEGGASDTEDAEAEGDSEPLPVVAEEPGNLEALEVLSARGEPTEPEIEARPRLAAESV
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分子量
52.3 kDa
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内毒素
< 1.0 EU per μg protein as determined by the LAL method.
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性状
Freeze-dried powder
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缓冲液
PBS, pH7.4, containing 0.01% SKL, 1mM DTT, 5% Trehalose and Proclin300.
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复溶方法
Reconstitute in ddH2O to a concentration of 0.1-0.5 mg/mL. Do not vortex.
- 个性化定制
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稳定性测试
The thermal stability is described by the loss rate. The loss rate was determined by accelerated thermal degradation test, that is, incubate the protein at 37℃ for 48h, and no obvious degradation and precipitation were observed. The loss rate isless than 8% within the expiration date under appropriate storage condition.
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保存条件 & 期限
Samples are stable for up to twelve months from date of receipt at -20℃ to -80℃. Store it under sterile conditions at -20℃ to -80℃. It is recommended that the protein be aliquoted for optimal storage. Avoid repeated freeze-thaw cycles.
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运输条件
In general, recombinant proteins are supplied as lyophilized powder and shipped at ambient temperature. For bulk packages, the proteins are provided as frozen liquid and shipped with blue ice, unless otherwise requested by the customer.
Quality inspection process
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Protein Description
SLC16A8, a member of the solute carrier family, encodes a sodium-dependent monocarboxylate transporter primarily involved in the transport of lactate, pyruvate, and other monocarboxylates across cell membranes. Its role is critical in various physiological processes, including energy metabolism, pH regulation, and intercellular signaling. Dysregulation of SLC16A8 has been implicated in metabolic disorders, cancer progression, and neurological diseases, prompting researchers to investigate its structure and function more closely. Recombination techniques allow for the expression of SLC16A8 in various systems, facilitating the study of its biochemical properties and transport mechanisms. The generated recombinant proteins can be used to elucidate the transport kinetics, substrate specificity, and regulatory mechanisms of SLC16A8, providing insights into its biological significance and potential as a therapeutic target. Understanding the structure-function relationship of SLC16A8 through recombinant protein studies may lead to novel interventions for diseases associated with its dysfunction and enhance our comprehension of cellular metabolism in health and disease.












