gene splicing 中文意思是什麼
gene splicing
解釋
基因剪接,基因拼接-
Genetic material produced by gene - splicing
重組基因材料基因分割而產生的基因材料 -
Gene - splicing gave rise to such a new and fundamental understanding of genetic processes that the men who discovered it were awarded the nobel prize in physiology or medicine
基因併合這個發現,使世人對遺傳過程有了嶄新的基本認識,發現者也因此獲得諾貝爾生理醫學獎。 -
Chomez and colleague also found this gene by homologous sequence splicing in the database of gene bank in 2001 and named as mage - hi, but there are no any biological functions of restin reported
2001年, chomez等通過同源序列篩選genbank數據庫,也發現了該基因,並命名為mage - h1 ,但有關該基因的具體生物學功能研究還沒有報道。 -
Cloning of chitinase gene from streptomyces roseoflavus and its splicing expression in escherichia coli
玫瑰黃鏈黴菌幾丁質酶基因的克隆及拼接表達 -
Alternative splicing gave rise to two transcripts of the kyot gene, kyotl and kyot2, which encoded proteins with four and two lim domains, respectively
全長kyot ( kyoti )蛋白含有四個lm結構域,不能與rbpj相互作用;而kyoth蛋白橢兩個lim結構域,是由kyoti的初級轉錄物經齡性撇產生的 -
Others have created skin - tissue cultures that glow colourfully under ultraviolet light by splicing in a gene from a species of coral
另一些則發明了表皮組織培養技術,通過導入珊瑚的基因使其在紫外線下發出色彩斑斕的光。 -
Using yeast two - hybrid system honjo ' s group in kyoto university isolated a novel protein, kyot, which physically interacts with rbp - j. differential splicing gives rise to three transcripts of the kyot gene, kyotl, kyot2 and kyots. kyot2, but not kyotl negatively regulates transcription by association with rbp - j
為進一步探討rbp - j的功能,日本京都大學的honjo研究組利用酵母雙雜交系統篩選到一個可以與rbp - j相互作用的新蛋白kyot , kyot蛋白有三種不同的剪切體: kyot1 , kyot2和kyot3 ,其中kyot2可以與rbp - j相互作用抑制其轉錄活性。 -
The mechanism is that the introduced complementary oligonucleotides can bind to the corresponding mrna or double - stranded dna in genome and form partial double - stranded molecules or triple - stranded nucleic acid molecules by sequence - specific and nonsequence - specific antisense action, thus the target gene will be orientationally blocked and expression of the target inhibited so that therapeutic effect could be attained. in this study, we designed a fragment of human c ii ta cdna in antisense orientation using mrna of c ii ta as template. the primers were designed based on 94 - 500 nucleotides segment in 5 " end of ciita gene so that the interested gene contained 407 base pairs which included two aug codons in 1 16 and 188 nucleotides as well as the splicing site between the first and the second exons
本研究設計以c tamrna為模板的反義cdna片段,從c ta基因5 』端第94位到500位核苷酸段設計引物,目的片段407bp ,覆蓋第116和188位兩個aug密碼子,也包含了第一外顯子和第二外顯子間的剪接位點:用常規分子生物學方法構建了反義片段的腺病毒表達載體( padeasy - 1系統) ;腺病毒載體經hek293細胞包裝產生含反義片段的重組腺病毒,用氯化銫密度梯度離心法獲得純化的高滴度腺病毒;進行體外基因轉移,分別用反義片段真核表達載體轉染p388d1細胞和用重組腺病毒感染hela細胞,觀察導入的c ta基因反義rna抑制細胞內組成型或誘導型c ta基因表達的作用,從而達到調控mhc -類分子表達的目的。 -
" you can ' t stick a pine branch in the ground and have it take root the way you can with a violet, " says steven strauss, an oregon state university forest science professor who has developed gene - splicing techniques for trees
曾經開發了林木基因嫁接法的俄勒岡州立大學林木科學教授,斯蒂文?司特勞斯說: 「不能像種紫羅蘭一樣,將一枝松枝插在地里,指望它會生根發芽。 -
The major focuses of research include : clinical biochemistry, gene splicing and regulation, and neurological biochemistry
現有臨床生化、基因拼接與調控、神經生化三個研究方向。 -
Three major transcipts ( nogo - a, - b, - c ) originate from the nogo gene by alternative splicing
三種nogo分子都具有相同的188個氨基酸的c -末端,與reticulon家族成員高度同源。 -
The pattern of gene expression that makes this transformation possible relies heavily on two phenomena : modification of chromatin and alternative splicing
造成這種轉變的基因表現模式,可能大量仰賴了兩種作用:染色質修飾和選擇性剪接。
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