1) optimal codon
高表达优越密码子
1.
lipolytica selected by high-frequency codon analysis with optimal codons selected by traditional methods, the result shows that high-frequency codon analysis is feasible.
lipolytica高频密码子和传统的高表达优越密码子分析法筛选出的优越密码子进行比较 ,证实高频密码子分析法的可靠性 。
2) optimal codons
优越密码子
1.
According to the analysis of 98 codon DNA sequences with this software,the codon usage in potato was calculated and 4 codons have been inferred to the optimal codons.
0工具在红旗LINUX系统下自编了密码子分析软件;通过对马铃薯98个蛋白质编码基因序列(codonDNAsequence)的分析,计算出了马铃薯的密码子用法,并确定出了马铃薯的4个高表达优越密码子;依据马铃薯密码子用法和高表达优越密码子分析结果,对t PA基因序列进行了密码子的改造,得到了具有马铃薯密码子使用特点的t PA基因序列,从而为以马铃薯为生物反应器高效生产t PA奠定了分子基础。
2.
According to the synonymous codons used in 28 open reading frames from Pichia pastoris, the codon usage in this species was calculated and 19 codons have been inferred to be its optimal codons.
pastoris的 19个高表达优越密码子。
3.
lipolytica have been inferred to be the optimal codons.
计算了酵母Yarrow ialipolytica 的密码子用法;首次确定出酵母Yarrow ia lipolytica 的17个高表达优越密码子。
3) codon-optimization
密码子优化
1.
Effect of codon-optimization and DNA priming-protein boosting on immunogenicity of recombinant plasmid containing SARS-CoV N gene;
密码子优化和蛋白加强免疫对SARS-CoV N基因重组质粒免疫原性的影响
4) codon optimization
密码子优化
1.
CONCLUSION:The expression of LZP3 gene in yeast could be successfully improved by using codon optimization.
结论:通过密码子优化,能显著提高LZP 3基因在酵母细胞中的表达水平。
2.
Enhanced prokaryotic expression of a recombinant Lagurus lagurus zona pellucida subunit 3 with codon optimization;
结论:通过密码子优化,能显著提高LZP3基因在原核细胞中的表达水平。
3.
Study on codon optimization and expression of canine sTfR gene in eukaryotic cells and interaction with canine parvovirus VP2 protein
为制备大量具有天然活性的犬胞外区可溶性转铁蛋白受体(sTfR),本试验通过密码子优化提高sTfR在真核细胞中的表达水平。
5) high-frequency codon
高频密码子
1.
limon) were used to analyze the relative frequency of synonymous codon(RFSC),and high-frequency codons were selected by high-frequency codon analysis.
采用高频密码子分析法,对甜橙C itrus sinensis、温州蜜柑C。
2.
The high-frequency codons were selected by high-frequency codon analysis according to relative frequency of synonymous codon (RFSC) which is calculated by RFCS program written by ourselves.
利用自编的RFCS程序计算同义密码子相对使用频率 (RFSC) ,并根据RFSC值筛选出高频密码子 。
6) Bacteria preferred condon
细菌优化密码子
补充资料:错义密码子
分子式:
CAS号:
性质:一种氨基酸的正常意义编码形式改变为另一种氨基酸的编码密码子。
CAS号:
性质:一种氨基酸的正常意义编码形式改变为另一种氨基酸的编码密码子。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条