Results A 13389G deletion in exon 6 was characterized in propositus, and this mutation led to frameshift.
結果先證者表現爲抗凝血酶基因外顯子6區13389G缺失,引起移碼突變。
The exon sequence is essential for protein synthesis.
外顯子序列對蛋白質合成至關重要。
Alternative splicing can result in different exon combinations.
選擇性剪接可能導致不同的外顯子組合。
Mutations in the exon region can lead to genetic disorders.
外顯子區域的突變可能導致遺傳疾病。
Researchers are studying the function of each exon in the gene.
研究人員正在研究基因中每個外顯子的功能。
The exon-intron structure is characteristic of eukaryotic genes.
外顯子-內含子結構是真核基因的特徵。
Exon skipping is a mechanism used in gene therapy.
外顯子跳躍是基因治療中使用的一種機制。
The exonuclease enzyme helps in DNA repair processes.
外切酶酶有助於DNA修復過程。
Exon boundaries are important for accurate mRNA processing.
外顯子邊界對於準確的mRNA加工很重要。
The exonuclease activity removes nucleotides from the DNA strand.
外切酶活性從DNA鏈中去除核苷酸。
Exon amplification can be used in PCR techniques.
外顯子擴增可用於PCR技術。
Results A 13389G deletion in exon 6 was characterized in propositus, and this mutation led to frameshift.
結果先證者表現爲抗凝血酶基因外顯子6區13389G缺失,引起移碼突變。
The exon sequence is essential for protein synthesis.
外顯子序列對蛋白質合成至關重要。
Alternative splicing can result in different exon combinations.
選擇性剪接可能導致不同的外顯子組合。
Mutations in the exon region can lead to genetic disorders.
外顯子區域的突變可能導致遺傳疾病。
Researchers are studying the function of each exon in the gene.
研究人員正在研究基因中每個外顯子的功能。
The exon-intron structure is characteristic of eukaryotic genes.
外顯子-內含子結構是真核基因的特徵。
Exon skipping is a mechanism used in gene therapy.
外顯子跳躍是基因治療中使用的一種機制。
The exonuclease enzyme helps in DNA repair processes.
外切酶酶有助於DNA修復過程。
Exon boundaries are important for accurate mRNA processing.
外顯子邊界對於準確的mRNA加工很重要。
The exonuclease activity removes nucleotides from the DNA strand.
外切酶活性從DNA鏈中去除核苷酸。
Exon amplification can be used in PCR techniques.
外顯子擴增可用於PCR技術。
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