| 1. | Qtl mapping and research of crop genetics
定位在作物遗传育种上的应用 |
| 2. | Principal factors affecting the power of detection and accuracy of qtl
数量性状基因作图精度的主要影响因子 |
| 3. | Screen of high soluble solid content qtl from lycopersicon hirsutum using molecular marker
利用分子标记筛选源于野生多毛番茄的高可溶性固形物的基因 |
| 4. | 6 . the results of heterosis prediction based on qtl effects showed that heading date had negative general mid - parent
群体估汁y qtl遗传主效应和或q厂互作效应预测单交后代杂种优抖。 |
| 5. | 5 . twenty - one and seventeen qtls were identified in qtl mapping analysis of heading date and kilo - grain weight respectively
对抽穗期和千粒重的qtl定位分析,分别发现了21个和17个qtl 。 |
| 6. | Formula for prediction of general heterosis and interaction heterosis of single - cross offspring based on qtl effects were deduced
推导了基于qtl效应的单交后代普通杂种优势和互作杂种优势预测公式。 |
| 7. | However , most of current methods for qtl mapping cannot simultaneously analyze epistases and their interaction with environments
然而,现行qtl作图方法大多不能同时分析上位性及其与环境的互作效应。 |
| 8. | This article reviews the main aspects of application of molecular markers in pea , including genetic diversity , the construction of genetic map , gene localization and qtl analysis
作者综述了豌豆分子标记的种类及其在豌豆种质资源遗传多样性、遗传图谱构建、基因定位、 qtl分析等方面的研究进展。 |
| 9. | Qtl mapping of yield traits was carried out by using molecular markers in this paper . the main methods and results are as follows : ( 1 ) a population of 131 recombinant inbred lines ( rils ) , ril - 8 , were created from the cross of chuan35050 and shannong483
本文对小麦产量性状进行了qtls作图,主要方法和结果如下: ( 1 )本研究创建了包括131个系的小麦rils群体? ? ril - 8 ,其组合为“川35050山农483 ” 。 |
| 10. | The new measures are a function of the genetic distance between the marker locus and a qtl . through simulations , we found that when marker allele frequencies vary across loci , the previous hwd measures are biased and not powe
计算机模拟表明,当各标记基因频率不同时,用以前的hwd指数精细定位会产生偏差,新的指数可以有效的进行精细定位,使用y > u和y < t的样本的lcd的功效普遍比仅仅使用y > u的样本的气回,的功效高。 |
