Literature
单页 - Antibodies for Neuroscience Research
Literature
单页 - Cited Antibodies 2024 Q2
下载GeneTex最新版本的Cited Antibodies 2024 Q2单页
Literature
单页-Total Solutions of Antibodies for SARS CoV-2
下载 GeneTex 最新版本的 SARS CoV-2 抗体的整体解决方案 单页
Newsletter
用于Omicron研究的抗体和重组蛋白
WHO将SARS-CoV-2变体B.1.1.529指定为第五种关注变体(VOC),并将其命名为“Omicron”...
Literature
单页 - 神经传递
下载 GeneTex 最新版本的神经传递单页
Newsletter
通过敲除验证的整合素 β-1抗体
整合素是由α和β亚基组成的异二聚体蛋白,已在哺乳动物中发现了至少 18 个 α 亚基和 8 个 β 亚基...
Newsletter
新冠肺炎中和性抗体与病毒结合位的结构解析
新冠肺炎中和性抗体与病毒结合位的结构解析
Articles
GeneTex 「5+1」 验证策略
GeneTex employs various analytic validation strategies to ensure both consistent quality and specificity.
Newsletter
Skin Regeneration without Scar Formation
Skin Regeneration without Scar Formation
Newsletter
GeneTex推出SARS-CoV-2 (COVID-19) RBD ACE2结合活性/中和测定套组
GeneTex推出SARS-CoV-2 (COVID-19) RBD ACE2结合活性/中和测定套组
Newsletter
GeneTex’s SARS-CoV-2 Spike RBD Antibodies Effectively Inhibit Viral Entry
GeneTex’s SARS-CoV-2 Spike RBD Antibodies Effectively Inhibit Viral Entry
Newsletter
Neuropilins Facilitate SARS-CoV-2 Entry into Host Cells
Neuropilins Facilitate SARS-CoV-2 Entry into Host Cells
Newsletter
Nuclear PD-L1 Mediates Pyroptosis in Cancer Cells
Nuclear PD-L1 Mediates Pyroptosis in Cancer Cells
Newsletter
Profiling cytokine storm in COVID-19 patients by metatranscriptomic sequencing
Profiling cytokine storm in COVID-19 patients by metatranscriptomic sequencing
Articles
GeneTex 超强 WB 发光底物
灵敏度高、稳定性强、节约时间、节省样品
Newsletter
Leaky blood-brain barrier triggers neural dysfunction that is reversible
In an exciting Science Translational Medicine paper, Senatorov et al. identify the progressive, age-dependent breakdown of the blood-brain barrier (BBB) as the trigger for subsequent neural pathology and pathophysiology
Literature
单页 - mTOR信号通路
下载GeneTex最新版本的 mTOR信号通路 单页
Literature
折页 - Antibodies for Hypoxia Research
下载 GeneTex 最新版本的Antibodies for Hypoxia Research折页
Literature
单页- Easy Blot
下载 GeneTex 最新版本的 Easy Blot 单页
Literature
单页-Zika Virus Research
下载GeneTex最新版本的Zika Virus Research单页
Pathways
Epithelial–mesenchymal transition (EMT) Pathway
EMT is a process whereby tightly-interacting and immotile epithelial cells acquire the phenotype of loosely-adherent and motile mesenchymal cells.
Newsletter
A Well-Cited Nrf2 Antibody for Cellular Redox Research
Newsletter
Neurodegeneration: A "Vicious Cycle" Involving Mitochondria, Glia, and Neuronal Death
Newsletter
SETD3 Is Pivotal for Infection by Multiple Human Enteroviruses
SETD3 Is Pivotal for Infection by Multiple Human Enteroviruses