BackgroundSesame (Sesamum indicum L.) is one of the most important oil crops; however, a lack of useful molecular markers hinders current genetic research. We performed transcriptome sequencing of samples from different sesame growth and developmental stages, and mining of genic-SSR markers to identify valuable markers for sesame molecular genetics research.ResultsIn this study, 75 bp and 100 bp paired-end RNA-seq was used to sequence 24 cDNA libraries, and 42,566 uni-transcripts were assembled from more than 260 million filtered reads. The total length of uni-transcript sequences was 47.99 Mb, and 7,324 SSRs (SSRs ≥15 bp) and 4,440 SSRs (SSRs ≥18 bp) were identified. On average, there was one genic-SSR per 6.55 kb (SSRs ≥15 bp) or 10.81 kb (SSRs ≥18 bp). Among perfect SSRs (≥18 bp), di-nucleotide motifs (48.01%) were the most abundant, followed by tri- (20.96%), hexa- (25.37%), penta- (2.97%), tetra- (2.12%), and mono-nucleotides (0.57%). The top four motif repeats were (AG/CT)n [1,268 (34.51%)], (CA/TG)n [281 (7.65%)], (AT/AT)n [215 (5.85%)], and (GAA/TTC)n [131 (3.57%)]. A total of 2,164 SSR primer pairs were identified in the 4,440 SSR-containing sequences (≥18 bp), and 300 SSR primer pairs were randomly chosen for validation. These SSR markers were amplified and validated in 25 sesame accessions (24 cultivated accessions, one wild species). 276 (92.0%) primer pairs yielded PCR amplification products in 24 cultivars. Thirty two primer pairs (11.59%) exhibited polymorphisms. Moreover, 203 primer pairs (67.67%) yielded PCR amplicons in the wild accession and 167 (60.51%) were polymorphic between species. A UPGMA dendrogram based on genetic similarity coefficients showed that the correlation between genotype and geographical source was low and that the genetic basis of sesame in China is narrow, as previously reported. The 32 polymorphic primer pairs were validated using an F2 mapping population; 18 primer pairs exhibited polymorphisms between the parents, and 14 genic-SSRs could be integrated into 9 main linkage groups.Conclusions2,164 genic-SSR markers have been developed in sesame using transcriptome sequencing. 276 of 300 validated primer pairs successfully yielded PCR amplicons in 24 cultivated sesame accessions. These markers increase current SSR marker resources and will greatly benefit genetic diversity, qualitative and quantitative trait mapping and marker-assisted selection studies in sesame.
arcodes are a part of our everyday life. You see them in the grocery store, on letters from the post office, and on DVDs you check out from the video store. Fast, simple, and accurate, barcoding has become the most popular data-entry method to track the ever-exploding amount of information in the macroscopic world in the past 15 years. In the meantime, an increasing demand for tracking smaller items and for direct monitoring of individual chemical interactions has driven the exploration for novel methods of barcoding at much smaller scales (1-4). Successful demonstrations of micro-or nano-sized barcodes in molecular interaction studies (4, 5), combinatorial screening (6), and convert tracking (7 ) have opened up new opportunities for research. This article will introduce recent developments in the field of encoded micro-or nano-sized freestanding particles and various applications. Detailed discussions of other encoding methods, such as molecular tags (8, 9) and non-particle-based platforms (10,11), are beyond the scope of our discussion. Readers who are interested in gaining an in-depth understanding of the field are referred to more comprehensive review papers.A conventional macroscopic barcode is a series of vertical lines ("the bars") and spaces of different widths. Various combinations of bars and spaces represent different characters incorporated in the code. Theoretically, varying the widths, sequential order, and total number of bars and spaces in the barcode can generate an unlimited number of codes. To achieve similar coding capacity at the nanoscale, the right elements to make up the codes (i.e., the bars and spaces) must first be identified. Two criteria are often used in the search for proper elements with distinctive attributes: They must be mixable at
The original definition of sarcopenia refers to the age-related loss of muscle mass. The literature suggests that the prevalence of sarcopenia in 60- to 70-year-olds is in the range of 5-13%. Prevalence estimates increase to 11-50% for the population aged 80 years or older. Estimates by the World Health Organization suggest that there were 600 million people aged 60 years or older in the year 2000, and that this number will increase to 1.2 billion by the year 2025. There are, however, limited published data on serial measures of muscle mass in older subjects to establish the age-related changes in muscle mass and to relate this change with adverse health consequences. This review is focused on the definition, prevalence, symptoms, pharmacy and physical therapy of sarcopenia in older subjects with the aim of promoting the recognition and treatment of age-related sarcopenia in the clinical setting.
Seed coat color is an important agronomic trait in sesame, as it is associated with seed biochemical properties, antioxidant content and activity and even disease resistance of sesame. Here, using a high-density linkage map, we analyzed genetic segregation and quantitative trait loci (QTL) for sesame seed coat color in six generations (P1, P2, F1, BC1, BC2 and F2). Results showed that two major genes with additive-dominant-epistatic effects and polygenes with additive-dominant-epistatic effects were responsible for controlling the seed coat color trait. Average heritability of the major genes in the BC1, BC2 and F2 populations was 89.30%, 24.00%, and 91.11% respectively, while the heritability of polygenes was low in the BC1 (5.43%), in BC2 (0.00%) and in F2 (0.89%) populations. A high-density map was constructed using 724 polymorphic markers. 653 SSR, AFLP and RSAMPL loci were anchored in 14 linkage groups (LG) spanning a total of 1,216.00 cM. The average length of each LG was 86.86 cM and the marker density was 1.86 cM per marker interval. Four QTLs for seed coat color, QTL1-1, QTL11-1, QTL11-2 and QTL13-1, whose heritability ranged from 59.33%–69.89%, were detected in F3 populations using CIM and MCIM methods. Alleles at all QTLs from the black-seeded parent tended to increase the seed coat color. Results from QTLs mapping and classical genetic analysis among the P1, P2, F1, BC1, BC2 and F2 populations were comparatively consistent. This first QTL analysis and high-density genetic linkage map for sesame provided a good foundation for further research on sesame genetics and molecular marker-assisted selection (MAS).
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.