Simple sequence repeat marker development and genetic mapping in quinoa (Chenopodium quinoa Willd.)

Jarvis, David E.; Kopp, Olga R.; Jellen, Eric N.; Mallory, Melanie A.; Pattee, Jack; Bonifacio, Alejandro; Coleman, Craig E.; Stevens, Mikel R.; Fairbanks, Daniel J.; Maughan, Peter J.

doi:10.1007/s12041-008-0006-6

Cited by 65 publications

(62 citation statements)

References 36 publications

(43 reference statements)

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“…It was previously reported that the frequency, distribution and abundance of SSRs can vary strongly among different organisms, mainly due to the different search criteria, origin of the sequences, and the size of the sampled genome . Dinucleotide repeats were also the most frequent class of SSR derived from genomic DNA of quinoa (Jarvis et al 2008), peanut (Cuc et al 2008), melon (Ritschel et al 2004), orange tree (Novelli et al 2006), bean (Benchimol et al 2007) and sugarcane (Cordeiro et al 2000). Analyzing ESTs for the Coffea species Aggarwal et al (2007) found 46% of dinucleotides and 26% of trinucleotides.…”

Section: Results Of the Sequenced Clonesmentioning

confidence: 99%

Development and validation of SSR markers for Coffea arabica L.

Missio¹,

Caixeta²,

Zambolim³

et al. 2009

CBAB

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Section: Results Of the Sequenced Clonesmentioning

confidence: 99%

Development and validation of SSR markers for Coffea arabica L.

Missio¹,

Caixeta²,

Zambolim³

et al. 2009

CBAB

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“…From the primers developed by Mason et al (2005) and Jarvis et al (2008), 35 and 4 SSR primers pairs, respectively, were selected according to the values of Heterozygosity (which ranged from 0.44 to 0.87), the Observed Number of Alleles reported (which ranged from 2 to 11), the chromosomal location and simple pattern amplification. Amplification reactions were carried out in a 7 ll reaction mixture.…”

Section: Pcr Amplificationmentioning

confidence: 99%

Genetic structure in cultivated quinoa (Chenopodium quinoa Willd.), a reflection of landscape structure in Northwest Argentina

et al. 2012

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Quinoa (Chenopodium quinoa Willd.), one of the main crops domesticated in the Andean highlands 1,000 of years ago, played an important role as a protein source. 35 germplasm accessions collected along the Northwest Argentina (NWA) region were studied using 22 microsatellite (SSR) markers. Results showed a great level of genetic diversity, differing from previous reports about the geographical distribution of quinoa variability. All SSR loci analysed were highly polymorphic detecting a total of 354 alleles among all populations, with an average of 16 alleles per locus. Cluster analyses grouped the accessions into four main clusters at the average genetic distance level (0.80), each of which represented a different environment of the NWA region: Puna (UHe = 0.42, ±0.07 SE), Dry Valleys (UHe = 0.27, ±0.05 SE), Eastern Humid Valleys (UHe = 0.16, ±0.04 SE) and a transition area with high altitudes between the last two environments (UHe = 0.25, ±0.03 SE). An eastward decreasing genetic diversity gradient was found. AMOVA analyses showed a strong genetic structure: a high population subdivision relative to the grouping by region (Fsr = 0.47) together with a high genetic differentiation among populations (Fst = 0.58) and a heterozygous defect (Fis = 0.63) in each of them. The variability structure, a reflection of the structure of the NWA landscapes, is discussed in connection with environmental variables.

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“…Simple sequence repeats (SSR's) are one of the frequently used molecular markers for genotyping crops (Tautz, 1989). A number of research studies have demonstrated the use of SSRs and ISSRs to detect polymorphism and diversity in amaranth Xu and Sun, 2001;Ray and Roy, 2007), and quinoa (Mason et al, 2005;Jarvis et al, 2008;Fuentes et al, 2009). However, inter-simple sequence repeat (ISSR) markers are simpler to use than SSR technique (Ray and Roy, 2007;Nolan et al, 2010).…”

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confidence: 99%

Reliability and comparison of the polymorphism revealed in amaranth by amplified fragment length polymorphisms (AFLPs) and inters simple sequence repeats (ISSRs)

Oduwaye¹,

BarÃ¡nek²,

ÄŒechovÃ³

et al. 2014

J. Plant Breed. Crop Sci.

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The present study reported the effectiveness of two PCR-based molecular techniques, inters simple sequence repeats (ISSRs) and amplified fragment length polymorphisms (AFLPs), for genetic assessment of amaranth. The polymorphic loci ranged from 110 among A. caudatus to 228 among A. cruentus and 16 among A. tricolor to 56 among A. hypochondriacus for AFLP primer combinations and ISSR primers, respectively. Among the two marker systems used, ISSR fingerprinting detected the highest number of alleles per locus (1.83) compared to AFLPs (1.63). However, the assay efficiency index for AFLP was 14.49, more than five-fold higher than ISSR (1.75). The study also revealed that ISSR primers with di-nucleotide repeats gave a good fingerprint, indicating that di-nucleotide repeats are more frequent in amaranth genome. The reproducibility of the two marker systems was confirmed by the narrow gene diversity (0.03 ± 0.11 to 0.07 ± 0.17) observed between the controls. Bayesian consensus and neighbor-joining trees were constructed to describe the cluster arrangement among the Amaranthus spp. The cluster pattern was similar for both markers, though the cluster order in the trees was slightly different. The results of this study confirm the usefulness of AFLPs and ISSRs for the genetic assessment of amaranth.

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Simple sequence repeat marker development and genetic mapping in quinoa (Chenopodium quinoa Willd.)

Cited by 65 publications

References 36 publications

Development and validation of SSR markers for Coffea arabica L.

Development and validation of SSR markers for Coffea arabica L.

Genetic structure in cultivated quinoa (Chenopodium quinoa Willd.), a reflection of landscape structure in Northwest Argentina

Reliability and comparison of the polymorphism revealed in amaranth by amplified fragment length polymorphisms (AFLPs) and inters simple sequence repeats (ISSRs)

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