运用体外蛋白质进化技术优化蛋白质,并基于序列数据设计抗体和纳米抗体。此外,我们擅长利用结构信息创建抗原特异性抗体,为靶向治疗提供定制化解决方案。
Our team employs in silico protein evolution techniques for protein optimization and designs both antibodies and nanobodies from sequence data. We also excel in creating antigen-specific antibodies using structural information, tailored for targeted therapeutics.
运用体外蛋白质进化技术优化蛋白质,并基于序列数据设计抗体和纳米抗体。此外,我们擅长利用结构信息创建抗原特异性抗体,为靶向治疗提供解决方案。
Our team employs in silico protein evolution techniques for protein optimization and designs both antibodies and nanobodies from sequence data. We also excel in creating antigen-specific antibodies using structural information, tailored for targeted therapeutics.
基于mRNA的高效密码子优化服务,旨在提升蛋白质产量。
Codon optimization services based on mRNA for improved protein production.
通过自由能(ΔG)计算来预测蛋白质稳定性,基于蛋白质序列确定酶的最佳功能pH值,以及评估蛋白质的溶解度和潜在毒性。
Predicting protein stability via Gibbs free energy (ΔG) calculations, determining optimal enzyme pH, and assessing protein solubility and toxicity. These analyses offer key insights for protein engineering and optimization in biotechnology.
我们提供蛋白质-抗体相互作用的结合位点识别、细胞表达位置定位,以及潜在的翻译后修饰位点。
Our protein interaction analysis services offer key predictions, including binding site identification for protein-protein and protein-antibody interactions, subcellular localization, and potential post-translational modification sites.
