基因组学与应用生物学
基因組學與應用生物學
기인조학여응용생물학
GENOMICS AND APPLIED BIOLOGY
2010年
1期
170-173
,共4页
任晋东%张昊%原爱平%王德前%田勇%钟声亮%温积辉%章纪地%林传海%丁育云%卢立志
任晉東%張昊%原愛平%王德前%田勇%鐘聲亮%溫積輝%章紀地%林傳海%丁育雲%盧立誌
임진동%장호%원애평%왕덕전%전용%종성량%온적휘%장기지%림전해%정육운%로립지
蛋鸽%性别鉴定%CHD基因%PCR扩增
蛋鴿%性彆鑒定%CHD基因%PCR擴增
단합%성별감정%CHD기인%PCR확증
Egg-laying pigeon%Sex identification%CHD gene%PCR amplification
蛋鸽早期性别的鉴定一直是制约蛋鸽业发展的瓶颈问题.在本研究中,我们采用PCR扩增和琼脂糖凝胶电泳检测的方法,对20日龄期的100只蛋鸽的性别连锁基因染色体解旋酶DNA结合基因CHD(chromo-helicase DNA binding)进行跨内含子扩增检测.蛋鸽早期DNA分子电泳检测结果与成年后的真实性别核对结果表明:所有雌性蛋鸽扩增结果含有两条带,其大小分别为280bp和250bp,雄性蛋鸽仅有一条280 bp的条带;泊松统计分析发现,蛋鸽早期DNA分子判定结果达到统计学上显著水平,可以作为蛋鸽早期性别鉴定的一种方法.本实验实现了以DNA分子为基础的早期蛋鸽性别鉴定,将对蛋鸽业早期的饲养成本降低和早期雄性蛋鸽的淘汰起到准确的指导作用.
蛋鴿早期性彆的鑒定一直是製約蛋鴿業髮展的瓶頸問題.在本研究中,我們採用PCR擴增和瓊脂糖凝膠電泳檢測的方法,對20日齡期的100隻蛋鴿的性彆連鎖基因染色體解鏇酶DNA結閤基因CHD(chromo-helicase DNA binding)進行跨內含子擴增檢測.蛋鴿早期DNA分子電泳檢測結果與成年後的真實性彆覈對結果錶明:所有雌性蛋鴿擴增結果含有兩條帶,其大小分彆為280bp和250bp,雄性蛋鴿僅有一條280 bp的條帶;泊鬆統計分析髮現,蛋鴿早期DNA分子判定結果達到統計學上顯著水平,可以作為蛋鴿早期性彆鑒定的一種方法.本實驗實現瞭以DNA分子為基礎的早期蛋鴿性彆鑒定,將對蛋鴿業早期的飼養成本降低和早期雄性蛋鴿的淘汰起到準確的指導作用.
단합조기성별적감정일직시제약단합업발전적병경문제.재본연구중,아문채용PCR확증화경지당응효전영검측적방법,대20일령기적100지단합적성별련쇄기인염색체해선매DNA결합기인CHD(chromo-helicase DNA binding)진행과내함자확증검측.단합조기DNA분자전영검측결과여성년후적진실성별핵대결과표명:소유자성단합확증결과함유량조대,기대소분별위280bp화250bp,웅성단합부유일조280 bp적조대;박송통계분석발현,단합조기DNA분자판정결과체도통계학상현저수평,가이작위단합조기성별감정적일충방법.본실험실현료이DNA분자위기출적조기단합성별감정,장대단합업조기적사양성본강저화조기웅성단합적도태기도준학적지도작용.
Sex identification is always a bottleneck at early age in developmental of egg-laying pigeons industry. In this experiments, we detected the partial sex linked gene CHD (chromo-helicase-DNA-binding) involving an intron in 100 egg-laying pigeons at 20 days old by using PCR amplification and electrophoresis in agarose gel. Based on the checking results between DNA molecular electrophoresis of egg-laying pigeons and the truly sex of maturity pi-geons, we found that two bands were demonstrated in all female egg-laying pigeons, and the sizes of them are 280 bp and 250 bp, respectively; in all male egg-laying pigeons, only one band appeared with length of 280 bp. Then the analysis of Poisson statistics showed that the determination results of DNA molecular in egg-laying pigeons is sig-nificant in statistics level, and it should be an effective approach in DNA-base sex identification. All of these evi-dences suggest that DNA-base sex identification in early egg-laying pigeons is come true, and it will cut down the cost for feeding early egg-laying pigeons and selection precise for male pigeons at early ages.
