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排序方式: 共有847条查询结果,搜索用时 15 毫秒
1.
为了区分不同金鸡菊的种质,明确目前广为栽培的金鸡菊的染色体数目及核型特征,采用常规压片法,以60个不同的金鸡菊种质为材料,鉴定其根尖细胞的染色体数目,并选取其中18个籽播系材料进行染色体核型分析。结果表明:60个金鸡菊的染色体数目包括12个类型,染色体数目24~52不等,18个核型分析的材料全部为二倍体,染色体基数存在x=10,12,13,14四种。在6个材料中发现了随体,未发现B染色体,染色体类型包括s,sm,st三种。核型全部为2A,核型整体上较为对称,核型不对称系数为58.56%~64.93%,一年生类型的金鸡菊普遍进化程度更高。亲本复杂的染色体基数及染色体倍性是造成栽培金鸡菊染色体数目多变且产生大量非整倍体的主要原因。本研究从细胞学方面为金鸡菊的分类鉴定和杂交育种提供了理论参考。 相似文献
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对不同年份育成的21个小麦品种(系)进行全基因组扫描,通过分析遗传距离和染色体区段/位点,明确其亲缘关系远近和遗传差异。分析可知,获得的2029个SNP基因位点在B基因组拥有较高的遗传多样性,其次是A和D基因组;在7个同源群中,第3和第6同源群呈现出较高的遗传多样性,而第1和第4同源群的遗传多样性较低;21条染色体中,3A、1B、6B染色体的遗传多样性较高,而1A、6A的遗传多样性偏低。对21份供试材料依据审定(育成)年份分析其群体的平均遗传距离,不同年份品种间的平均遗传距离先增大后减小,遗传多样性逐渐降低;21份供试材料间的遗传相似系数在0.69~0.99之间,大致可聚为4个类群,同一年份的品种一般聚在一起,与其系谱关系吻合。构建并分析供试材料的基因型图谱发现,00s、10s和现在育成的小麦品种(系)共有SNP和共有染色体区段分别主要在A、D和B基因组,对应已发表性状同不同年份育种目标吻合。同时发现21份供试材料均含有25个共同SNP位点,分布在1A、5A、6A、7A、2B、3B、6B、1D、2D、3D和7D染色体上,且每条染色体上分布的SNP位点数目均不相同,通过对应已发表性状进一步证实在品种(系)组配与选育过程中注重产量、株高、分蘖数、抽穗期、灌浆速率和抗病等性状的选择。以上研究结果可为今后小麦新品种组配和选育提供参考依据。 相似文献
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Stella Owusu-Nketia Jonaliza Lanceras Siangliw Meechai Siangliw Theerayut Toojinda Apichart Vanavichit Noppon Ratsameejanphen 《Plant Production Science》2018,21(3):266-277
Soil moisture fluctuation (SMF) stress due to erratic rainfall in rainfed lowland (RFL) rice ecosystems negatively affect production. Under such condition, root plasticity is one of the key traits that play important roles for plant adaptation. This study aimed to evaluate root plasticity expression and its functional roles in water uptake, dry matter production and yield under SMF using three chromosome segment substitution lines (CSSLs) with major genetic background of KDML105 and a common substituted segment in chromosome 8. The CSSLs showed greater shoot dry matter production than KDML105 under SMF, which was attributed to the maintenance of stomatal conductance resulting in higher grain yield. The root system development based on total root length of the CSSLs were significantly higher than that of KDML105 due to the promoted production of nodal and lateral roots. These results implied that the common substituted segments in chromosome 8 of the 3 CSSLs may be responsible for the expression of their root plasticity under SMF and contributed to the increase in water uptake and consequently dry matter production and yield. These CSSLs could be used as a good source of genetic material for drought resistance breeding programs targeting rainfed lowland condition with fluctuating soil moisture environments and for further genetic studies to elucidate mechanisms underlying root plasticity. 相似文献
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盐胁迫对小麦代换系幼苗叶片保护酶活性影响及染色体效应 总被引:4,自引:0,他引:4
为研究盐胁迫对小麦代换系酶活性的影响,以中国春-Synthetic 6x 染色体代换系及其亲本为材料,通过测定在盐处理条件下幼苗抗氧化酶SOD、POD活性和丙二醛( MDA)含量变化,并对其相关耐盐特性的基因进行染色体定位。采用霍格兰营养液水培法,设置对照(0 mmol/L NaCl)和盐处理(150 mmol/L NaCl),在幼苗两叶一心时进行处理,四叶一心时取样,分别测定对照和盐处理条件下幼苗的SOD和POD活性以及MDA含量。在盐胁迫条件下,小麦代换系幼苗SOD和POD活性显著升高,丙二醛含量降低。其中,1A、5A、6A、1B、5B、6B、7B和5D代换系的SOD活性显著或极显著高于母本中国春,2A、1B、2B、3B、5B、6B、5D和6D代换系的相对SOD 活性显著或极显著高于母本中国春;3A、4A、5A、6A、7A、6B和7D代换系的POD 活性显著或极显著高于中国春,4A、5A、6B、1D和7D 代换系的相对POD活性显著或极显著高于中国春。由于保护酶的作用,在盐胁迫条件下,多数代换系MDA含量明显减少,2A、3A、4A、6A、1B、3B、4B、5B、6B、7B、1D、5D和7D代换系的MDA含量显著或极显著低于母本中国春,2A、6A、6B、1D和2D代换系的相对MDA含量显著或极显著低于母本中国春。 Synthetic 6x 的1B、5B、6B 和5D 染色体上可能存在诱导幼苗SOD活性增强的基因,4A、5A、6B和7D染色体上可能存在诱导幼苗POD 活性增强的基因,抑制幼苗MDA含量增高的基因可能存在于2A、6A、6B和1D染色体上。 相似文献
6.
To provide food and nutrition security for a growing world population, continued improvements in the yield and nutritional quality of agricultural crops will be required. Wheat is an important source of calories, protein and micronutrients and is thus a priority to breed for improvements in these traits. The GRAIN PROTEIN CONTENT-B1 (GPC-B1) gene is a positive regulator of nutrient translocation which increases protein, iron and zinc concentration in the wheat grain. In the ten years since it was cloned, the impacts of GPC-B1 allelic variation on quality and yield traits have been extensively analyzed in diverse genetic backgrounds in field studies spanning forty environments and seven countries. In this review, we compile data from twenty-five studies to summarize the impact of GPC-B1 allelic variation on fifty different traits. Taken together, the results demonstrate that the functional copy of the GPC-B1 gene is associated with consistent positive effects on grain protein, Fe and Zn content with only marginally negative impacts on yield. We conclude that the GPC-B1 gene has the potential to increase nutritional and end use quality in a wide range of modern cultivars and environments and discuss the possibilities for its application in wheat breeding. 相似文献
7.
为了明确南麦号系列小麦品种及其亲本的染色体结构特点,用4种寡核苷酸探针和非变性荧光原位杂交(ND-FISH)技术对南麦号小麦品种及其亲本的染色体进行了分析。结果表明,亲本攀早抗含1RS/1BL易位染色体,它的4个衍生品种中3个含1RS/1BL易位染色体。寡核苷酸探针Oligo-275.1、Oligo-275.2、Oligo-pSc119.2-1和Oligo-pTa535-1反映出了2A、4A、5A、6A、7A、3B、5B、6B、1D和2D染色体在攀早抗及其衍生品种间的结构差异。根据Oligo-275.1和Oligo-275.2的信号模式,推测7A染色体在南麦302、特研麦南88和荣春南麦1号中的重组情况不同。 相似文献
8.
Ravindra DONDE Jitendra KUMAR Gayatri GOUDA Manoj Kumar GUPTA Mitadru MUKHERJEE Sk Yasin BAKSH Pradosh MAHADANI Khirod Kumar SAHOO Lambodar BEHERA Sushanta Kumar DASH 《水稻科学》2019,26(4):239-247
The introgression of wild chromosomal segments into popular rice varieties is one of the potential approaches for developing varieties for drought stress condition. Sixteen genotypes, including nine indica, two tropical japonica and five chromosome segments substitution lines(CSSLs) with different levels of tolerance/susceptibility to drought stress, were selected for diversity study. Sixty-three microsatellite markers were utilized for assessing genetic diversity. A total of 95 alleles were amplified, and out of them, 60 were polymorphic. Six unique alleles, amplified by the microsatellite loci RM276, RM472,RM488, RM537, RM541 and RM28089, were identified in six genotypes, namely FR13A, Brahamanakhi,RUF44, Swarna-sub1, Brahamanakhi and Satyabhama. The highest genetic similarity was found among CSSLs. Polymorphism information content(PIC) value varied from 0 to 1.00 with an average of 0.66 per locus. Twenty-eight microsatellites were found to be polymorphic, which could be used in marker-assisted selection programme. All the sixteen genotypes were grouped into two major clusters at genetic similarity of 0.64. In the cluster I, five CSSLs identified as diverse genotypes had wild ancestor segments responsible for drought tolerance, and hence they could be utilized as potential donors. The popular Indian varieties, Swarna-sub1 and IR64-sub1, could be used as recurrent parents in the future breeding program for developing varieties for abiotic stresses such as submergence and drought. 相似文献
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