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Emmanouil N. Tzitzikas, Antonio J. Monforte, Abdelhak Fatihi, Zacharias Kypriotakis, Tefkros A. Iacovides, Ioannis M. Ioannides, and Panagiotis Kalaitzis

work, we used a set of published SSR markers ( Danin-Poleg et al., 2001 ; Fernandez-Silva et al., 2008 ; Gonzalo et al., 2005 ) to genetically assess a number of traditional Greek and Cypriot melon cultigens, not tested before, and compare these

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Barbara S. Gilmore, Nahla V. Bassil, Danny L. Barney, Brian J. Knaus, and Kim E. Hummer

SSR markers are more reproducible and can be shared among laboratories. In addition to being typically codominant and exhibiting Mendelian inheritance, they also provide anchored loci for comparative mapping. These qualities make SSR markers an ideal

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Margaret Pooler and Hongmei Ma

3.1.2 (Applied Biosystems). Genotyper software Version 2.5.2 (Applied Biosystems) was used to process and view GeneScan-sized peaks. Table 2. Simple sequence repeat (SSR) marker name, linkage group ( Jung et al., 2008 ), annealing temperature and

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Carmina Gisbert, Judith M. Dumm, Jaime Prohens, Santiago Vilanova, and John R. Stommel

details on the origin of these violet/black control varieties can be found in Muñoz-Falcón et al. (2009) . Table 1. Alleles for 12 genomic SSR markers ( Vilanova et al., 2012 ) in E13GB42, ‘Black Beauty’, and eight other black varieties. For heterozygous

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Milica Ćalović, Chunxian Chen, Qibin Yu, Vladimir Orbović, Frederick G. Gmitter Jr, and Jude W. Grosser

through protoplast fusion. EST-SSR analysis of tetraploid plants and calli derived from ‘Murcott’ and ‘W. Murcott’ ovules. According to EST-SSR marker analysis, 46 regenerants were identified as autotetraploids that had the same SSR alleles as one of their

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Pei Xu, Tingting Hu, Yuejian Yang, Xiaohua Wu, Baogen Wang, Yonghua Liu, Dehui Qin, Jeffrey Ehlers, Timothy Close, Zhongfu Lu, and Guojing Li

reference genetic map (the ‘ZZ’ map), which is enriched with expressed sequence tag (EST)-derived SNPs and SSR markers ( Xu et al., 2011 ). Materials and Methods Plant materials included ‘ZN016’, a landrace of asparagus bean originating from southern China

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Jianfeng Liu, Bowen Yang, Yuetong Ming, Yuchu Zhang, and Yunqing Cheng

genetic linkage map and fingerprint construction, molecular marker-assisted breeding, and evolutionary research ( Mei et al., 2012 ). Because of the high cost of developing SSR markers, their usage has previously been limited to a certain extent. With the

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Jacob Mashilo, Hussein Shimelis, Alfred Odindo, and Beyene Amelework

genetic diversity analysis studies because of their high degree of polymorphism and random distribution across the genome ( Gong et al., 2012 ; Ji et al., 2012 ; Varshney et al., 2005 ). SSR markers have been successfully used to determine the level of

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Wanmei Jin, Qiang Zhang, Sunzhong Liu, Qinping Wei, Wanmei Jin, Zongming Cheng, Xiaohui Xue, and Tingzhen Yang

( Benora et al., 2008 ; Cantini et al., 2008 ; Wang et al., 2011 ). SSR marker technology is an ideal molecular tool for analysis of genetic diversity because of its stability, transferability, ease of performance, and its locus richness ( Benora et al

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Vidyasagar R. Sathuvalli, Shawn A. Mehlenbacher, and David C. Smith

to different linkage groups (LGs) confirms their independence and thus facilitates their use in pyramiding. To date, more than 230 SSR marker loci have been developed in hazelnut ( Bassil et al., 2005a , 2005b ; Boccacci et al., 2005 ; Gürcan and