Your search keyword '"QTL discovery"' showing total 2,254 results

151. A new genetic locus for self-compatibility in the outcrossing grass species perennial ryegrass (Lolium perenne).

Author

Slatter, Lucy M, Barth, Susanne, Manzanares, Chloe, Velmurugan, Janaki, Place, Iain, and Thorogood, Daniel

Subjects

*LOLIUM perenne, *FLOWERING of plants, *SPECIES, *RYEGRASSES, *SINGLE nucleotide polymorphisms, *MEIOTIC drive

Abstract

Background Self-incompatibility (SI) is a physiological mechanism that many flowering plants employ to prevent self-fertilization and maintain heterozygosity. In the grass family this is known to be controlled by a two locus (S - Z) system; however, the SI system is intrinsically leaky. Modifier genes of both the S and Z loci and a further locus, T , are known to override SI leading to self-fertilization and self-seed production. This has implications for the ecological and evolutionary success as well as the commercial breeding of grasses. Here we report a study where the genetic control of self-compatibility (SC) was determined from the results of self-pollinating an F 2 population of perennial ryegrass from two independently derived inbred lines produced by single-seed descent. Methods In vitro self-pollinations of 73 fertile plants were analysed. A genetic association analysis was made with a panel of 1863 single-nucleotide polymorphism (SNP) markers, generated through genotype-by-sequencing methodology. Markers were placed on a recombination map of seven linkage groups (LGs) created using Joinmap v.5. The seed set on self- and open-pollinated inflorescences was determined on 143 plants, including the 73 plants analysed for self-pollination response. Key Results Self-pollinations revealed a bimodal distribution of percentage SC with peaks at 50 and 100 %. A single quantitative trait locus (QTL) was identified with peak association for marker 6S14665z17875_11873 that mapped to LG 6. Peak position was associated with maximum marker segregation distortion. The self-compatible plants were equally fecund after self- and open pollination. Conclusions This is the first report in the Poaceae family of an SC locus located on LG 6. This new SC QTL discovery, as well as indicating the complex nature of the pollen–stigma recognition process and its evolutionary significance, provides an additional source of SC for breeding perennial ryegrass. [ABSTRACT FROM AUTHOR]

Published

2021

152. Genetical genomics of Populus leaf shape variation.

Author

Drost, Derek R., Puranik, Swati, Novaes, Evandro, Novaes, Carolina R. D. B., Dervinis, Christopher, Gailing, Oliver, and Kirst, Matias

Subjects

MUTAGENICITY testing, LEAF morphology, PLANT genetic engineering, PLANT biotechnology, GENOMICS

Abstract

Background: Leaf morphology varies extensively among plant species and is under strong genetic control. Mutagenic screens in model systems have identified genes and established molecular mechanisms regulating leaf initiation, development, and shape. However, it is not known whether this diversity across plant species is related to naturally occurring variation at these genes. Quantitative trait locus (QTL) analysis has revealed a polygenic control for leaf shape variation in different species suggesting that loci discovered by mutagenesis may only explain part of the naturally occurring variation in leaf shape. Here we undertook a genetical genomics study in a poplar intersectional pseudo-backcross pedigree to identify genetic factors controlling leaf shape. The approach combined QTL discovery in a genetic linkage map anchored to the Populus trichocarpa reference genome sequence and transcriptome analysis. Results: A major QTL for leaf lamina width and length:width ratio was identified in multiple experiments that confirmed its stability. A transcriptome analysis of expanding leaf tissue contrasted gene expression between individuals with alternative QTL alleles, and identified an ADP-ribosylation factor (ARF) GTPase (PtARF1) as a candidate gene for regulating leaf morphology in this pedigree. ARF GTPases are critical elements in the vesicular trafficking machinery. Disruption of the vesicular trafficking function of ARF by the pharmacological agent Brefeldin A (BFA) altered leaf lateral growth in the narrow-leaf P. trichocarpa suggesting a molecular mechanism of leaf shape determination. Inhibition of the vesicular trafficking processes by BFA interferes with cycling of PIN proteins and causes their accumulation in intercellular compartments abolishing polar localization and disrupting normal auxin flux with potential effects on leaf expansion. Conclusions: In other model systems, ARF proteins have been shown to control the localization of auxin efflux carriers, which function to establish auxin gradients and apical-basal cell polarity in developing plant organs. Our results support a model where PtARF1 transcript abundance changes the dynamics of endocytosis-mediated PIN localization in leaf cells, thus affecting lateral auxin flux and subsequently lamina leaf expansion. This suggests that evolution of differential cellular polarity plays a significant role in leaf morphological variation observed in subgenera of genus Populus. [ABSTRACT FROM AUTHOR]

Published

2015

153. Using the UK reference population Avalon × Cadenza as a platform to compare breeding strategies in elite Western European bread wheat.

Author

Ma, Juan, Wingen, Luzie U., Orford, Simon, Fenwick, Paul, Wang, Jiankang, and Griffiths, Simon

Abstract

Wheat breeders select for qualitative and quantitative traits, the latter often detected as quantitative trait loci (QTL). It is, however, a long procedure from QTL discovery to the successful introduction of favourable alleles into new elite varieties and finally into farmers’ crops. As a proof of principle for this process, QTL for grain yield (GY), yield components, plant height (PH), ear emergence (EM), solid stem (SS) and yellow rust resistance (Yr) were identified in segregating UK bread wheat reference population, Avalon × Cadenza. Among the 163 detected QTL were several not reported before: 17 for GY, the major GY QTL on 2D; a major SS QTL on 3B; and Yr6 on 7B. Common QTL were identified on ten chromosomes, most interestingly, grain number (GN) was found to be associated with Rht-D1b; and GY and GN with a potential new allele of Rht8. The interaction of other QTL with GY and yield components was discussed in the context of designing a UK breeding target genotype. Desirable characteristics would be: similar PH and EM to Avalon; Rht-D1b and Vrn-A1b alleles; high TGW and GN; long and wide grains; a large root system, resistance to diseases; and maximum GY. The potential of the identified QTL maximising transgressive segregation to produce a high-yielding and resilient genotype was demonstrated by simulation. Moreover, simulating breeding strategies with F2 enrichment revealed that the F2–DH procedure was superior to the RIL and the modified SSD procedure to achieve that genotype. The proposed strategies of parent selection and breeding methodology can be used as guidance for marker-assisted wheat breeding. [ABSTRACT FROM AUTHOR]

Published

2015

154. Genetic control of RNA splicing and its distinct role in complex trait variation.

Author

Qi T, Wu Y, Fang H, Zhang F, Liu S, Zeng J, and Yang J

Subjects

Genetic Variation, Humans, Polymorphism, Single Nucleotide genetics, Quantitative Trait Loci genetics, RNA Splicing genetics, Genome-Wide Association Study, Multifactorial Inheritance

Abstract

Most genetic variants identified from genome-wide association studies (GWAS) in humans are noncoding, indicating their role in gene regulation. Previous studies have shown considerable links of GWAS signals to expression quantitative trait loci (eQTLs) but the links to other genetic regulatory mechanisms, such as splicing QTLs (sQTLs), are underexplored. Here, we introduce an sQTL mapping method, testing for heterogeneity between isoform-eQTL effects (THISTLE), with improved power over competing methods. Applying THISTLE together with a complementary sQTL mapping strategy to brain transcriptomic (n = 2,865) and genotype data, we identified 12,794 genes with cis-sQTLs at P < 5 × 10 -8 , approximately 61% of which were distinct from eQTLs. Integrating the sQTL data into GWAS for 12 brain-related complex traits (including diseases), we identified 244 genes associated with the traits through cis-sQTLs, approximately 61% of which could not be discovered using the corresponding eQTL data. Our study demonstrates the distinct role of most sQTLs in the genetic regulation of transcription and complex trait variation., (© 2022. The Author(s).)

Published

2022

155. Genetic imprints of domestication for disease resistance, oil quality, and yield component traits in groundnut (Arachis hypogaea L.)

Author

Khera, P., Pandey, M.K., Mallikarjuna, N., Sriswathi, M., Roorkiwal, M., Janila, P., Sharma, S., Shilpa, K., Sudini, H., Guo, B., Varshney, R.K., Khera, P., Pandey, M.K., Mallikarjuna, N., Sriswathi, M., Roorkiwal, M., Janila, P., Sharma, S., Shilpa, K., Sudini, H., Guo, B., and Varshney, R.K.

Abstract

Ploidy difference between wild Arachis species and cultivated genotypes hinder transfer of useful alleles for agronomically important traits. To overcome this genetic barrier, two synthetic tetraploids, viz., ISATGR 1212 (A. duranensis ICG 8123 × A. ipaensis ICG 8206) and ISATGR 265-5A (A. kempff-mercadoi ICG 8164 × A. hoehnei ICG 8190), were used to generate two advanced backcross (AB) populations. The AB-populations, namely, AB-pop1 (ICGV 91114 × ISATGR 1212) and AB-pop2, (ICGV 87846 × ISATGR 265-5A) were genotyped with DArT and SSR markers. Genetic maps were constructed for AB-pop1 and AB-pop2 populations with 258 loci (1415.7 cM map length and map density of 5.5 cM/loci) and 1043 loci (1500.8 cM map length with map density of 1.4 cM/loci), respectively. Genetic analysis identified large number of wild segments in the population and provided a good source of diversity in these populations. Phenotyping of these two populations identified several introgression lines with good agronomic, oil quality, and disease resistance traits. Quantitative trait locus (QTL) analysis showed that the wild genomic segments contributed favourable alleles for foliar disease resistance while cultivated genomic segments mostly contributed favourable alleles for oil quality and yield component traits. These populations, after achieving higher stability, will be useful resource for genetic mapping and QTL discovery for wild species segments in addition to using population progenies in breeding program for diversifying the gene pool of cultivated groundnut.

Published

2019

156. Genomic regions associated with resistance to peanut bud necrosis disease (PBND) in a recombinant inbred line (RIL) population

Author

Jadhav, Y., Manohar, S.S., Sunkad, G., Kannalli, V.P., Pandey, M.K., Variath, M.T., Yaduru, S., Kona, P., Varshney, R.K., Pasupuleti, J., Jadhav, Y., Manohar, S.S., Sunkad, G., Kannalli, V.P., Pandey, M.K., Variath, M.T., Yaduru, S., Kona, P., Varshney, R.K., and Pasupuleti, J.

Abstract

Parents and 318 F8 recombinant inbred lines (RILs) derived from the cross, TAG 24 × ICGV 86031 were evaluated for peanut bud necrosis disease (PBND) resistance and agronomic traits under natural infestation of thrips at a disease hotspot location for 2 years. Significant genotype, environment and genotype × environment interaction effects suggested role of environment in development and spread of the disease. Quantitative trait loci (QTL) analysis using QTL Cartographer identified a total of 14 QTL for six traits of which five QTL were for disease incidence. One quantitative trait locus q60DI located on LG_AhII was identified using both QTL Cartographer and QTL Network. Another QTL q90DI was detected with a high PVE of 12.57 using QTL Cartographer. A total of nine significant additive × additive (AA) interactions were detected for PBND disease incidence and yield traits with two and seven interactions displaying effects in favour of the parental and recombinant genotype combinations, respectively. This is the first attempt on QTL discovery associated with PBND resistance in peanut. Superior RILs identified in the study can be recycled or released as variety following further evaluations.

Published

2019

157. Addressing Sample Mix-Ups: Tools and Approaches for Large-Scale Multi-Omics Studies.

Author

Fu Y, Yuan ZF, Wu L, Peng J, Wang X, and High AA

Abstract

Advances in high-throughput omics technologies have enabled system-wide characterization of biological samples across multiple molecular levels, such as the genome, transcriptome, and proteome. However, as sample sizes rapidly increase in large-scale multi-omics studies, sample mix-ups have become a prevalent issue, compromising data integrity and leading to erroneous conclusions. The interconnected nature of multi-omics data presents an opportunity to identify and correct these errors. This review examines the potential sources of sample mix-ups and evaluates the methodologies and tools developed for detecting and correcting these errors, with an emphasis on approaches applicable to proteomics data. We categorize existing tools into three main groups: expression/protein quantitative trait loci-based, genotype concordance-based, and gene/protein expression correlation-based approaches. Notably, only a handful of tools currently utilize the proteogenomics approach for correcting sample mix-ups at the proteomics level. Integrating the strengths of current tools across diverse data types could enable the development of more versatile and comprehensive solutions. In conclusion, verifying sample identity is a critical first step to reduce bias and increase precision in subsequent analyses for large-scale multi-omics studies. By leveraging these tools for identifying and correcting sample mix-ups, researchers can significantly improve the reliability and reproducibility of biomedical research., (© 2024 Wiley‐VCH GmbH.)

Published

2024

158. Meta-QTL analysis and candidate genes for quality traits, mineral content, and abiotic-related traits in wild emmer.

Author

Cabas-Lühmann, Patricia, Schwember, Andrés R., Arriagada, Osvin, Marcotuli, Ilaria, Matus, Iván, Alfaro, Christian, and Gadaleta, Agata

Subjects

DURUM wheat, WHEAT breeding, LOCUS (Genetics), EMMER wheat, WHEAT, GENES, MINERALS

Abstract

Wild emmer (Triticum turgidum ssp. dicoccoides) genotypes were studied for their high-nutritional value and good tolerance to various types of stress; for this reason, several QTL (quantitative trait loci) studies have been conducted to find favorable alleles to be introgressed into modern wheat cultivars. Given the complexity of the QTL nature, their interaction with the environment, and other QTLs, a small number of genotypes have been used in wheat breeding programs. Meta-QTL (MQTL) analysis helps to simplify the existing QTL information, identifying stable genomic regions and possible candidate genes for further allele introgression. The study aimed to identify stable QTL regions across different environmental conditions and genetic backgrounds using the QTL information of the past 14 years for different traits in wild emmer based upon 17 independent studies. A total of 41 traits were classified as quality traits (16), mineral composition traits (11), abiotic-related traits (13), and disease-related traits (1). The analysis revealed 852 QTLs distributed across all 14 chromosomes of wild emmer, with an average of 61 QTLs per chromosome. Quality traits had the highest number of QTLs (35%), followed by mineral content (33%), abiotic-related traits (28%), and disease-related traits (4%). Grain protein content (GPC) and thousand kernel weight (TKW) were associated with most of the QTLs detected. A total of 43 MQTLs were identified, simplifying the information, and reducing the average confidence interval (CI) from 22.6 to 4.78 cM. These MQTLs were associated withmultiple traits across different categories. Nine candidate genes were identified for several stable MQTLs, potentially contributing to traits such as quality, mineral content, and abiotic stress resistance. These genes play essential roles in various plant processes, such as carbohydrate metabolism, nitrogen assimilation, cell wall biogenesis, and cell wall extensibility. Overall, this study underscores the importance of consideringMQTL analysis in wheat breeding programs, as it identifies stable genomic regions associated with multiple traits, offering potential solutions for improving wheat varieties under diverse environmental conditions. [ABSTRACT FROM AUTHOR]

Published

2024

159. A common regulatory haplotype doubles lactoferrin concentration in milk.

Author

Lopdell, Thomas J., Trevarton, Alexander J., Moody, Janelle, Prowse-Wilkins, Claire, Knowles, Sarah, Tiplady, Kathryn, Chamberlain, Amanda J., Goddard, Michael E., Spelman, Richard J., Lehnert, Klaus, Snell, Russell G., Davis, Stephen R., and Littlejohn, Mathew D.

Subjects

LACTOFERRIN, HAPLOTYPES, LOCUS (Genetics), WHEY proteins, GENE mapping, MILK

Abstract

Background: Bovine lactoferrin (Lf) is an iron absorbing whey protein with antibacterial, antiviral, and antifungal activity. Lactoferrin is economically valuable and has an extremely variable concentration in milk, partly driven by environmental influences such as milking frequency, involution, or mastitis. A significant genetic influence has also been previously observed to regulate lactoferrin content in milk. Here, we conducted genetic mapping of lactoferrin protein concentration in conjunction with RNA-seq, ChIP-seq, and ATAC-seq data to pinpoint candidate causative variants that regulate lactoferrin concentrations in milk. Results: We identified a highly-significant lactoferrin protein quantitative trait locus (pQTL), as well as a cislactotransferrin (LTF) expression QTL (cis-eQTL) mapping to the LTF locus. Using ChIP-seq and ATAC-seq datasets representing lactating mammary tissue samples, we also report a number of regions where the openness of chromatin is under genetic influence. Several of these also show highly significant QTL with genetic signatures similar to those highlighted through pQTL and eQTL analysis. By performing correlation analysis between these QTL, we revealed an ATAC-seq peak in the putative promotor region of LTF, that highlights a set of 115 high-frequency variants that are potentially responsible for these effects. One of the 115 variants (rs110000337), which maps within the ATAC-seq peak, was predicted to alter binding sites of transcription factors known to be involved in lactation-related pathways. Conclusions: Here, we report a regulatory haplotype of 115 variants with conspicuously large impacts on milk lactoferrin concentration. These findings could enable the selection of animals for high-producing specialist herds. [ABSTRACT FROM AUTHOR]

Published

2024

160. Integrative genomic analyses identify candidate causal genes for calcific aortic valve stenosis involving tissue-specific regulation.

Author

Thériault, Sébastien, Li, Zhonglin, Abner, Erik, Luan, Jian'an, Manikpurage, Hasanga D., Houessou, Ursula, Zamani, Pardis, Briend, Mewen, Boudreau, Dominique K., Gaudreault, Nathalie, Frenette, Lily, Argaud, Déborah, Dahmene, Manel, Dagenais, François, Clavel, Marie-Annick, Pibarot, Philippe, Arsenault, Benoit J., Boekholdt, S. Matthijs, Wareham, Nicholas J., and Esko, Tõnu

Subjects

AORTIC stenosis, GENOMICS, GENE expression, GENOME-wide association studies, GENES, HEART valves, AORTIC valve

Abstract

There is currently no medical therapy to prevent calcific aortic valve stenosis (CAVS). Multi-omics approaches could lead to the identification of novel molecular targets. Here, we perform a genome-wide association study (GWAS) meta-analysis including 14,819 cases among 941,863 participants of European ancestry. We report 32 genomic loci, among which 20 are novel. RNA sequencing of 500 human aortic valves highlights an enrichment in expression regulation at these loci and prioritizes candidate causal genes. Homozygous genotype for a risk variant near TWIST1, a gene involved in endothelial-mesenchymal transition, has a profound impact on aortic valve transcriptomics. We identify five genes outside of GWAS loci by combining a transcriptome-wide association study, colocalization, and Mendelian randomization analyses. Using cross-phenotype and phenome-wide approaches, we highlight the role of circulating lipoproteins, blood pressure and inflammation in the disease process. Our findings pave the way for the development of novel therapies for CAVS. Here the authors report 20 novel genomic risk loci for calcific aortic valve stenosis, the most common heart valve disorder. Using RNA sequencing in 500 human aortic valves, they prioritize candidate causal genes including TWIST1, a gene involved in endothelial-mesenchymal transition. [ABSTRACT FROM AUTHOR]

Published

2024

161. The impact of genetically controlled splicing on exon inclusion and protein structure.

Author

Einson, Jonah, Minaeva, Mariia, Rafi, Faiza, and Lappalainen, Tuuli

Subjects

PROTEIN structure, LOCUS (Genetics), RNA sequencing, GENOME-wide association studies

Abstract

Common variants affecting mRNA splicing are typically identified though splicing quantitative trait locus (sQTL) mapping and have been shown to be enriched for GWAS signals by a similar degree to eQTLs. However, the specific splicing changes induced by these variants have been difficult to characterize, making it more complicated to analyze the effect size and direction of sQTLs, and to determine downstream splicing effects on protein structure. In this study, we catalogue sQTLs using exon percent spliced in (PSI) scores as a quantitative phenotype. PSI is an interpretable metric for identifying exon skipping events and has some advantages over other methods for quantifying splicing from short read RNA sequencing. In our set of sQTL variants, we find evidence of selective effects based on splicing effect size and effect direction, as well as exon symmetry. Additionally, we utilize AlphaFold2 to predict changes in protein structure associated with sQTLs overlapping GWAS traits, highlighting a potential new use-case for this technology for interpreting genetic effects on traits and disorders. [ABSTRACT FROM AUTHOR]

Published

2024

162. Comparative transcriptome and metabolome analysis revealed diversity in the response of resistant and susceptible rose (Rosa hybrida) varieties to Marssonina rosae.

Author

Jurong Song, Feng Chen, Bo Lv, Cong Guo, Jie Yang, Jiaqi Guo, Li Huang, Guogui Ning, Yuanyuan Yang, and Fayun Xiang

Subjects

MITOGEN-activated protein kinases, TRANSCRIPTOMES, PLANT-pathogen relationships, PLANT hormones, ROSES

Abstract

Rose black spot disease caused by Marssonina rosae is among the most destructive diseases that affects the outdoor cultivation and production of roses; however, the molecular mechanisms underlying the defensive response of roses to M. rosae have not been clarified. To investigate the diversity of response to M. rosae in resistant and susceptible rose varieties, we performed transcriptome and metabolome analyses of resistant (KT) and susceptible (FG) rose varieties and identified differentially expressed genes (DEGs) and differentially accumulated metabolites (DAMs) in response to M. rosae at different time points. In response to M. rosae, DEGs and DAMs were mainly upregulated compared to the control and transcription factors were concentrated in the WRKY and AP2/ERF families. Gene Ontology analysis showed that the DEGs of FG were mainly enriched in biological processes, such as the abscisic acid-activated signaling pathway, cell wall, and defense response, whereas the DEGs of KT were mainly enriched in Golgi-mediated vesicle transport processes. Kyoto Encyclopedia of Genes and Genomes analysis showed that the DEGs of both varieties were concentrated in plant-pathogen interactions, plant hormone signal transduction, and mitogen-activated protein kinase signaling pathways, with the greatest number of DEGs associated with brassinosteroid (BR) in the plant hormone signal transduction pathway. The reliability of the transcriptome results was verified by qRT-PCR. DAMs of KT were significantly enriched in the butanoate metabolism pathway, whereas DAMs of FG were significantly enriched in BR biosynthesis, glucosinolate biosynthesis, and tryptophan metabolism. Moreover, the DAMs in these pathways were significantly positively correlated with the DEGs. Disease symptoms were aggravated when FG leaves were inoculated with M. rosae after 24-epibrassinolide treatment, indicating that the response of FG to M. rosae involves the BR signaling pathway. Our results provide new insights into the molecular mechanisms underlying rose response to M. rosae and lay a theoretical foundation for formulating rose black spot prevention and control strategies and cultivating resistant varieties. [ABSTRACT FROM AUTHOR]

Published

2024

163. Integrative systems biology of wheat susceptibility to Fusarium graminearum uncovers a conserved gene regulatory network and identifies master regulators targeted by fungal core effectors.

Author

Rocher, Florian, Dou, Samir, Philippe, Géraldine, Martin, Marie-Laure, Label, Philippe, Langin, Thierry, and Bonhomme, Ludovic

Abstract

Background: Plant diseases are driven by an intricate set of defense mechanisms counterbalanced by the expression of host susceptibility factors promoted through the action of pathogen effectors. In spite of their central role in the establishment of the pathology, the primary components of plant susceptibility are still poorly understood and challenging to trace especially in plant-fungal interactions such as in Fusarium head blight (FHB) of bread wheat. Designing a system-level transcriptomics approach, we leveraged the analysis of wheat responses from a susceptible cultivar facing Fusarium graminearum strains of different aggressiveness and examined their constancy in four other wheat cultivars also developing FHB. Results: In this study, we describe unexpected differential expression of a conserved set of transcription factors and an original subset of master regulators were evidenced using a regulation network approach. The dual-integration with the expression data of pathogen effector genes combined with database mining, demonstrated robust connections with the plant molecular regulators and identified relevant candidate genes involved in plant susceptibility, mostly able to suppress plant defense mechanisms. Furthermore, taking advantage of wheat cultivars of contrasting susceptibility levels, a refined list of 142 conserved susceptibility gene candidates was proposed to be necessary host’s determinants for the establishment of a compatible interaction. Conclusions: Our findings emphasized major FHB determinants potentially controlling a set of conserved responses associated with susceptibility in bread wheat. They provide new clues for improving FHB control in wheat and also could conceivably leverage further original researches dealing with a broader spectrum of plant pathogens. [ABSTRACT FROM AUTHOR]

Published

2024

164. QTL mapping of human retina DNA methylation identifies 87 gene-epigenome interactions in age-related macular degeneration.

Author

Advani, Jayshree, Mehta, Puja A., Hamel, Andrew R., Mehrotra, Sudeep, Kiel, Christina, Strunz, Tobias, Corso-Díaz, Ximena, Kwicklis, Madeline, van Asten, Freekje, Ratnapriya, Rinki, Chew, Emily Y., Hernandez, Dena G., Montezuma, Sandra R., Ferrington, Deborah A., Weber, Bernhard H. F., Segrè, Ayellet V., and Swaroop, Anand

Subjects

MACULAR degeneration, DNA methylation, GENOTYPE-environment interaction, LOCUS (Genetics), EPIGENOMICS, GENE expression, HISTONE methylation

Abstract

DNA methylation provides a crucial epigenetic mark linking genetic variations to environmental influence. We have analyzed array-based DNA methylation profiles of 160 human retinas with co-measured RNA-seq and >8 million genetic variants, uncovering sites of genetic regulation in cis (37,453 methylation quantitative trait loci and 12,505 expression quantitative trait loci) and 13,747 DNA methylation loci affecting gene expression, with over one-third specific to the retina. Methylation and expression quantitative trait loci show non-random distribution and enrichment of biological processes related to synapse, mitochondria, and catabolism. Summary data-based Mendelian randomization and colocalization analyses identify 87 target genes where methylation and gene-expression changes likely mediate the genotype effect on age-related macular degeneration. Integrated pathway analysis reveals epigenetic regulation of immune response and metabolism including the glutathione pathway and glycolysis. Our study thus defines key roles of genetic variations driving methylation changes, prioritizes epigenetic control of gene expression, and suggests frameworks for regulation of macular degeneration pathology by genotype–environment interaction in retina. Here, the authors perform genome-wide mapping of DNA methylation and expression quantitative trait loci, revealing associations among genotype, epigenome and transcriptome, uncovering genes and gene-environment interactions contributing to age-related macular degeneration (AMD). [ABSTRACT FROM AUTHOR]

Published

2024

165. RNA-seq analysis reveals narrow differential gene expression in MEP and MVA pathways responsible for phytochemical divergence in extreme genotypes of Thymus daenensis Celak.

Author

Ahmadi, Hosein, Fatahi, Reza, Zamani, Zabihollah, Shokrpour, Majid, Sheikh-Assadi, Morteza, and Poczai, Peter

Subjects

GENE expression, TERPENES, THYMUS, GENOTYPES, METABOLITES, RNA sequencing

Abstract

Background: Here, we investigated the underlying transcriptional-level evidence behind phytochemical differences between two metabolically extreme genotypes of Thymus daenensis. The genotypes 'Zagheh-11' (thymol/carvacrol type, poor in essential oil [EO] [2.9%] but rich in triterpenic acids) and 'Malayer-21' (thymol type and rich in EO [3.8%]) were selected from an ongoing breeding program and then clonally propagated for further experimental use. Materials and methods: GC-MS, GC-FID, and HPLC-PDA were utilized to monitor the fluctuation of secondary metabolites at four phenological stages (vegetative, bud burst, early, and full-flowering stages). The highest phytochemical divergence was observed at early flowering stage. Both genotypes were subjected to mRNA sequencing (approximately 100 million paired reads) at the aforementioned stage. The expression patterns of four key genes involved in the biosynthesis of terpenoids were also validated using qRT-PCR. Results: Carvacrol content in 'Zagheh-11' (26.13%) was approximately 23 times higher than 'Malayer-21' (1.12%). Reciprocally, about 10% higher thymol was found in 'Malayer-21' (62.15%). Moreover, the concentrations of three major triterpenic acids in 'Zagheh-11' were approximately as twice as those found in 'Malayer-21'. Transcriptome analysis revealed a total of 1840 unigenes that were differentially expressed, including terpene synthases, cytochrome P450, and terpenoid backbone genes. Several differentially expressed transcription factors (such as MYB, bZIP, HB-HD-ZIP, and WRKY families) were also identified. These results suggest that an active cytosolic mevalonate (MVA) pathway may be linked to higher levels of sesquiterpenes, triterpenic acids, and carvacrol in 'Zagheh-11'. The chloroplastic pathway of methyl erythritol phosphate (MEP) may have also contributed to a higher accumulation of thymol in Malayer-21. Indeed, 'Zagheh-11' showed higher expression of certain genes (HMGR, CYP71D180, β-amyrin 28-monooxygenase, and sesquiterpene synthases) in the MVA pathway, while some genes in the MEP pathway (including DXR, ispG, and γ-terpinene synthase) were distinctly expressed in Malayer-21. Future efforts in metabolic engineering of MVA/MEP pathways may benefit from these findings to produce increased levels of desired secondary metabolites at commercial scale. [ABSTRACT FROM AUTHOR]

Published

2024

166. Durum wheat heat tolerance loci defined via a north–south gradient.

Author

Sall, Amadou Tidiane, Kabbaj, Hafssa, Menoum, Sidi ould Ely, Cisse, Madiama, Geleta, Mulatu, Ortiz, Rodomiro, and Bassi, Filippo M.

Published

2024

167. LC‐ICP‐MS analysis of inositol phosphate isomers in soil offers improved sensitivity and fine‐scale mapping of inositol phosphate distribution.

Author

Carroll, Joseph J., Sprigg, Colleen, Chilvers, Graham, Delso, Ignacio, Barker, Megan, Cox, Filipa, Johnson, David, and Brearley, Charles A.

Subjects

INOSITOL phosphates, ISOMERS, FOREST soils, BIOGEOCHEMICAL cycles, TAIGAS

Abstract

Organic forms of phosphorus (P) prevail in soils and their quantification is vital to better understand global biogeochemical cycles. P speciation in soil is commonly assessed by 31P NMR spectroscopy of sodium hydroxide‐EDTA (NaOH‐EDTA) extracts.A liquid chromatography‐inductively coupled plasma‐mass spectrometry (LC‐ICP‐MS) method that employs NaOH‐EDTA is described.Comparison with 31P NMR shows that LC‐ICP‐MS is up to three orders of magnitude more sensitive. It allows measurement in samples as small as 1 mg. We reveal variation of inositol phosphate distribution in Swedish boreal forest soil and identify myo‐ and scyllo‐inositol hexakisphosphates and other isomers including scyllo‐inositol pentakisphosphate.Speciation of the major inositol phosphates was not altered by long‐term nitrogen fertilization. [ABSTRACT FROM AUTHOR]

Published

2024

168. Characterization of caffeine response regulatory variants in vascular endothelial cells.

Author

Boye, Carly, Kalita, Cynthia A., Findley, Anthony S., Alazizi, Adnan, Julong Wei, Xiaoquan Wen, Pique-Regi, Roger, and Luca, Francesca

Published

2024

169. Molecular quantitative trait loci in reproductive tissues impact male fertility in cattle.

Author

Mapel, Xena Marie, Kadri, Naveen Kumar, Leonard, Alexander S., He, Qiongyu, Lloret-Villas, Audald, Bhati, Meenu, Hiltpold, Maya, and Pausch, Hubert

Subjects

LOCUS (Genetics), MALE reproductive organs, SEMEN, VAS deferens, SEMEN analysis, GENETIC engineering, CATTLE fertility, MALE infertility, GENE expression

Abstract

Breeding bulls are well suited to investigate inherited variation in male fertility because they are genotyped and their reproductive success is monitored through semen analyses and thousands of artificial inseminations. However, functional data from relevant tissues are lacking in cattle, which prevents fine-mapping fertility-associated genomic regions. Here, we characterize gene expression and splicing variation in testis, epididymis, and vas deferens transcriptomes of 118 mature bulls and conduct association tests between 414,667 molecular phenotypes and 21,501,032 genome-wide variants to identify 41,156 regulatory loci. We show broad consensus in tissue-specific and tissue-enriched gene expression between the three bovine tissues and their human and murine counterparts. Expression- and splicing-mediating variants are more than three times as frequent in testis than epididymis and vas deferens, highlighting the transcriptional complexity of testis. Finally, we identify genes (WDR19, SPATA16, KCTD19, ZDHHC1) and molecular phenotypes that are associated with quantitative variation in male fertility through transcriptome-wide association and colocalization analyses. Investigating the genetics of male fertility requires comprehensive genotype and phenotype data. Here, the authors characterize the transcriptional complexity of bovine male reproductive tissues to identify loci associated with male fertility. [ABSTRACT FROM AUTHOR]

Published

2024

170. Recent advances in polygenic scores: translation, equitability, methods and FAIR tools.

Author

Xiang, Ruidong, Kelemen, Martin, Xu, Yu, Harris, Laura W., Parkinson, Helen, Inouye, Michael, and Lambert, Samuel A.

Abstract

Polygenic scores (PGS) can be used for risk stratification by quantifying individuals’ genetic predisposition to disease, and many potentially clinically useful applications have been proposed. Here, we review the latest potential benefits of PGS in the clinic and challenges to implementation. PGS could augment risk stratification through combined use with traditional risk factors (demographics, disease-specific risk factors, family history, etc.), to support diagnostic pathways, to predict groups with therapeutic benefits, and to increase the efficiency of clinical trials. However, there exist challenges to maximizing the clinical utility of PGS, including FAIR (Findable, Accessible, Interoperable, and Reusable) use and standardized sharing of the genomic data needed to develop and recalculate PGS, the equitable performance of PGS across populations and ancestries, the generation of robust and reproducible PGS calculations, and the responsible communication and interpretation of results. We outline how these challenges may be overcome analytically and with more diverse data as well as highlight sustained community efforts to achieve equitable, impactful, and responsible use of PGS in healthcare. [ABSTRACT FROM AUTHOR]

Published

2024

171. A landscape of gene expression regulation for synovium in arthritis.

Author

Jiang, Feng, Hu, Shou-Ye, Tian, Wen, Wang, Nai-Ning, Yang, Ning, Dong, Shan-Shan, Song, Hui-Miao, Zhang, Da-Jin, Gao, Hui-Wu, Wang, Chen, Wu, Hao, He, Chang-Yi, Zhu, Dong-Li, Chen, Xiao-Feng, Guo, Yan, Yang, Zhi, and Yang, Tie-Lin

Subjects

GENETIC regulation, SYNOVIAL membranes, LOCUS (Genetics), JOINTS (Anatomy), GENETIC variation, NUTRITIONAL genomics

Abstract

The synovium is an important component of any synovial joint and is the major target tissue of inflammatory arthritis. However, the multi-omics landscape of synovium required for functional inference is absent from large-scale resources. Here we integrate genomics with transcriptomics and chromatin accessibility features of human synovium in up to 245 arthritic patients, to characterize the landscape of genetic regulation on gene expression and the regulatory mechanisms mediating arthritic diseases predisposition. We identify 4765 independent primary and 616 secondary cis-expression quantitative trait loci (cis-eQTLs) in the synovium and find that the eQTLs with multiple independent signals have stronger effects and heritability than single independent eQTLs. Integration of genome-wide association studies (GWASs) and eQTLs identifies 84 arthritis related genes, revealing 38 novel genes which have not been reported by previous studies using eQTL data from the GTEx project or immune cells. We further develop a method called eQTac to identify variants that could affect gene expression by affecting chromatin accessibility and identify 1517 regions with potential regulatory function of chromatin accessibility. Altogether, our study provides a comprehensive synovium multi-omics resource for arthritic diseases and gains new insights into the regulation of gene expression. Hundreds of arthritis-associated genetic variants have been identified but in most cases their functions remain unknown. Here the authors develop a resource to reveal the effects of variants on gene expression in human synovium, and identify arthritis-related genes. [ABSTRACT FROM AUTHOR]

Published

2024

172. Accounting for isoform expression increases power to identify genetic regulation of gene expression.

Author

LaPierre, Nathan and Pimentel, Harold

Subjects

GENETIC regulation, GENE expression, LOCUS (Genetics), GENETIC variation, ALTERNATIVE RNA splicing, RNA splicing

Abstract

A core problem in genetics is molecular quantitative trait locus (QTL) mapping, in which genetic variants associated with changes in the molecular phenotypes are identified. One of the most-studied molecular QTL mapping problems is expression QTL (eQTL) mapping, in which the molecular phenotype is gene expression. It is common in eQTL mapping to compute gene expression by aggregating the expression levels of individual isoforms from the same gene and then performing linear regression between SNPs and this aggregated gene expression level. However, SNPs may regulate isoforms from the same gene in different directions due to alternative splicing, or only regulate the expression level of one isoform, causing this approach to lose power. Here, we examine a broader question: which genes have at least one isoform whose expression level is regulated by genetic variants? In this study, we propose and evaluate several approaches to answering this question, demonstrating that "isoform-aware" methods—those that account for the expression levels of individual isoforms—have substantially greater power to answer this question than standard "gene-level" eQTL mapping methods. We identify settings in which different approaches yield an inflated number of false discoveries or lose power. In particular, we show that calling an eGene if there is a significant association between a SNP and any isoform fails to control False Discovery Rate, even when applying standard False Discovery Rate correction. We show that similar trends are observed in real data from the GEUVADIS and GTEx studies, suggesting the possibility that similar effects are present in these consortia. [ABSTRACT FROM AUTHOR]

Published

2024

173. Genes and pathways revealed by whole transcriptome analysis of milk derived bovine mammary epithelial cells after Escherichia coli challenge.

Author

Iso-Touru, Terhi, Panitz, Frank, Fischer, Daniel, Kyläniemi, Minna K., Taponen, Suvi, Tabell, Jonna, Virta, Anneli, and Vilkki, Johanna

Subjects

BOVINE mastitis, RNA sequencing, ESCHERICHIA coli, EPITHELIAL cells, EPITHELIAL cell culture, GENE expression

Abstract

Mastitis, inflammation of the mammary gland, is the costliest disease in dairy cattle and a major animal welfare concern. Mastitis is usually caused by bacteria, of which staphylococci, streptococci and Escherichia coli are most frequently isolated from bovine mastitis. Bacteria activate the mammary immune system in variable ways, thereby influencing the severity of the disease. Escherichia coli is a common cause of mastitis in cattle causing both subclinical and clinical mastitis. Understanding of the molecular mechanisms that activate and regulate the host response would be central to effective prevention of mastitis and breeding of cows more resistant to mastitis. We used primary bovine mammary epithelial cell cultures extracted noninvasively from bovine milk samples to monitor the cellular responses to Escherichia coli challenge. Differences in gene expression between control and challenged cells were studied by total RNA-sequencing at two time points post-challenge. In total, 150 and 440 (Padj < 0.05) differentially expressed genes were identified at 3 h and 24 h post-challenge, respectively. The differentially expressed genes were mostly upregulated at 3 h (141/150) and 24 h (424/440) post-challenge. Our results are in line with known effects of E. coli infection, with a strong early inflammatory response mediated by pathogen receptor families. Among the most significantly enriched early KEGG pathways were the TNF signalling pathway, the cytokine-cytokine receptor interaction, and the NF-kappa B signalling pathway. At 24 h post-challenge, most significantly enriched were the Influenza A, the NOD-like receptor signalling, and the IL-17 signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2024

174. The Identification of Goat KCNJ15 Gene Copy Number Variation and Its Association with Growth Traits.

Author

Zhao, Jiahao, Liu, Zhe, Wang, Xianwei, Xin, Xiaoling, Du, Lei, Zhao, Huangqing, An, Qingming, Ding, Xiaoting, Zhang, Zijing, Wang, Eryao, Xu, Zejun, and Huang, Yongzhen

Subjects

GOAT breeds, GOATS, STATURE, HIGH throughput screening (Drug development), BODY weight, GENES

Abstract

(1) Background: Copy number variation (CNV) is a critical component of genome structural variation and has garnered significant attention. High-throughput screening of the KCNJ15 gene has revealed a correlation between the CNV region and the growth traits of goats. We aimed to identify the CNV of the KCNJ15 gene in five goat breeds and analyze its association with growth characteristics. (2) Methods: We utilized 706 goats from five breeds: Guizhou black goat (GZB), Guizhou white goat (GZW), Bohuai goat (BH), Huai goat (HH), and Taihang goat (TH). To evaluate the number of copies of the KCNJ15 gene using qPCR, we analyzed the correlation between the CNV and growth characteristics and then used a universal linear model. The findings revealed variations in the distribution of different copy number types among the different goat breeds. (3) Results: Association analysis revealed a positive influence of the CNV in the KCNJ15 gene on goat growth. In GZB, individuals with duplication types exhibited superior performance in terms of cannon bone circumference (p < 0.05). In HH, individuals with duplication types exhibited superior performance in terms of body slanting length (p < 0.05). Conversely, normal TH demonstrated better body height and body weight (p < 0.05), while in GZW, when CN = 3, it performed better than other types in terms of body weight and chest circumference (p < 0.05). However, in BH, it had no significant effect on growth traits. (4) Conclusions: We confirmed that the CNV in the KCNJ15 gene significantly influences the growth characteristics of four distinct goat breeds. The correlation between KCNJ15 gene CNVs and goat growth traits offers valuable insights to breeders, enabling them to employ precise and efficient breeding methods that enhance livestock welfare, productivity, and overall economic benefits in the industry. [ABSTRACT FROM AUTHOR]

Published

2024

175. Genomic prediction based on preselected single‐nucleotide polymorphisms from genome‐wide association study and imputed whole‐genome sequence data annotation for growth traits in Duroc pigs.

Author

Zhang, Yuling, Zhuang, Zhanwei, Liu, Yiyi, Huang, Jinyan, Luan, Menghao, Zhao, Xiang, Dong, Linsong, Ye, Jian, Yang, Ming, Zheng, Enqin, Cai, Gengyuan, Wu, Zhenfang, and Yang, Jie

Subjects

GENOME-wide association studies, WHOLE genome sequencing, SINGLE nucleotide polymorphisms, MULTIPLE imputation (Statistics), SWINE, LINKAGE disequilibrium

Abstract

The use of whole‐genome sequence (WGS) data is expected to improve genomic prediction (GP) power of complex traits because it may contain mutations that in strong linkage disequilibrium pattern with causal mutations. However, a few previous studies have shown no or small improvement in prediction accuracy using WGS data. Incorporating prior biological information into GP seems to be an attractive strategy that might improve prediction accuracy. In this study, a total of 6334 pigs were genotyped using 50K chips and subsequently imputed to the WGS level. This cohort includes two prior discovery populations that comprise 294 Landrace pigs and 186 Duroc pigs, as well as two validation populations that consist of 3770 American Duroc pigs and 2084 Canadian Duroc pigs. Then we used annotation information and genome‐wide association study (GWAS) from the WGS data to make GP for six growth traits in two Duroc pig populations. Based on variant annotation, we partitioned different genomic classes, such as intron, intergenic, and untranslated regions, for imputed WGS data. Based on GWAS results of WGS data, we obtained trait‐associated single‐nucleotide polymorphisms (SNPs). We then applied the genomic feature best linear unbiased prediction (GFBLUP) and genomic best linear unbiased prediction (GBLUP) models to estimate the genomic estimated breeding values for growth traits with these different variant panels, including six genomic classes and trait‐associated SNPs. Compared with 50K chip data, GBLUP with imputed WGS data had no increase in prediction accuracy. Using only annotations resulted in no increase in prediction accuracy compared to GBLUP with 50K, but adding annotation information into the GFBLUP model with imputed WGS data could improve the prediction accuracy with increases of 0.00%–2.82%. In conclusion, a GFBLUP model that incorporated prior biological information might increase the advantage of using imputed WGS data for GP. [ABSTRACT FROM AUTHOR]

Published

2024

176. Identifying genetic susceptibility to Aspergillus fumigatus infection using collaborative cross mice and RNA‐Seq approach.

Author

Yosief, Roa'a H. S., Lone, Iqbal M., Nachshon, Aharon, Himmelbauer, Heinz, Gat‐Viks, Irit, and Iraqi, Fuad A.

Published

2024

177. Elite, transformable haploid inducers in maize.

Author

Delzer, Brent, Liang, Dawei, Szwerdszarf, David, Rodriguez, Isadora, Mardones, Gonzalo, Elumalai, Sivamani, Johnson, Francine, Nalapalli, Samson, Egger, Rachel, Burch, Erin, Meier, Kerry, Juan Wei, Xiujuan Zhang, Huaping Gui, Huaibing Jin, Huan Guo, Kun Yu, Yubo Liu, Breitinger, Becky, and Poets, Ana

Subjects

CORN varieties, HAPLOIDY, GERMPLASM of corn, ANTHOCYANINS, PLANT development, GENOME editing

Abstract

The introduction of alleles into commercial crop breeding pipelines is both time consuming and costly. Two technologies that are disrupting traditional breeding processes are doubled haploid (DH) breeding and genome editing (GE). Recently, these techniques were combined into a GE trait delivery system called HI-Edit (Haploid Inducer-Edit) [1]. In HI-Edit, the pollen of a haploid inducer line is reprogrammed to deliver GE traits to any variety, obviating recurrent selection. For HI-Edit to operate at scale, an efficient transformable HI line is needed, but most maize varieties are recalcitrant to transformation, and haploid inducers are especially difficult to transform given their aberrant reproductive behaviors. Leveraging marker assisted selection and a three-tiered testing scheme, we report the development of new Iodent and Stiff Stalk maize germplasm that are transformable, have high haploid induction rates, and exhibit a robust, genetically-dominant anthocyanin native trait that may be used for rapid haploid identification. We show that transformation of these elite ‘‘HI-Edit” lines is enhanced using the BABYBOOM and WUSCHEL morphogenetic factors. Finally, we evaluate the HI-Edit performance of one of the lines against both Stiff Stalk and non-Stiff Stalk testers. The strategy and results of this study should facilitate the development of commercially scalable HI-Edit systems in diverse crops. [ABSTRACT FROM AUTHOR]

Published

2024

178. Development and implementation of a Dependable, Simple, and Cost-effective (DSC), open-source running wheel in High Drinking in the Dark and Heterogeneous Stock/Northport mice.

Author

Grigsby, Kolter, Usmani, Zaynah, Anderson, Justin, and Ozburn, Angela

Subjects

MICE, LONG-distance running, PHYSICAL activity, ALCOHOLIC intoxication, MEDICAL research

Abstract

Maintaining healthy and consistent levels of physical activity (PA) is a clinically proven and low-cost means of reducing the onset of several chronic diseases and may provide an excellent strategy for managing mental health and related outcomes. Wheel-running (WR) is a well-characterized rodentmodel of voluntary PA; however, its use in biomedical research is limited by economical and methodical constraints. Here, we showcase the DSC (Dependable, Simple, Cost-effective), open-source running wheel by characterizing 24-h running patterns in two genetically unique mouse lines: inbred High Drinking in the Dark line 1 [iHDID-1; selectively bred to drink alcohol to intoxication (and then inbred to maintain phenotype)] and Heterogeneous Stock/Northport (HS/Npt; the genetically heterogeneous founders of iHDID mice). Running distance (km/day), duration (active minutes/day) and speed (km/hour) at 13-days (acute WR; Experiment 1) and 28-days (chronic WR; Experiment 2) were comparable to other mouse strains, suggesting the DSC-wheel reliably captures murine WR behavior. Analysis of 24-h running distance supports previous findings, wherein iHDID-1 mice tend to run less than HS/Npt mice in the early hours of the dark phase and more than HS/Npt in the late hours of dark phase/early light phase. Moreover, circadian actograms were generated to highlight the broad application of our wheel design across disciplines. Overall, the present findings demonstrate the ability of the DSC-wheel to function as a high-throughput and precise tool to comprehensively measure WR behaviors in mice. [ABSTRACT FROM AUTHOR]

Published

2024

179. Ppe.RPT/SSC-1: from QTL mapping to a predictive KASP test for ripening time and soluble solids concentration in peach.

Author

da Silva Linge, Cassia, Fu, Wanfang, Calle, Alejandro, Rawandoozi, Zena, Cai, Lichun, Byrne, David H., Worthington, Margaret, and Gasic, Ksenija

Subjects

PEACH, PREDICTIVE tests, HAPLOTYPES, CULTIVARS, CHROMOSOMES, ALLELES

Abstract

Genomic regions associated with ripening time (RPT) and soluble solids concentration (SSC) were mapped using a pedigreed population including multiple F1 and F2 families from the Clemson University peach breeding program (CUPBP). RPT and SSC QTLs were consistently identified in two seasons (2011 and 2012) and the average datasets (average of two seasons). A target region spanning 10,981,971–11,298,736 bp on chromosome 4 of peach reference genome used for haplotype analysis revealed four haplotypes with significant differences in trait values among different diplotype combinations. Favorable alleles at the target region for both RPT and SSC were determined and a DNA test for predicting RPT and SSC was developed. Two Kompetitive Allele Specific PCR (KASP) assays were validated on 84 peach cultivars and 163 seedlings from the CUPBP, with only one assay (Ppe.RPT/SSC-1) needed to predict between early and late-season ripening cultivars and low and high SSC. These results advance our understanding of the genetic basis of RPT and SSC and facilitate selection of new peach cultivars with the desired RPT and SSC. [ABSTRACT FROM AUTHOR]

Published

2024

180. Mapping yield and yield-related traits using diverse common bean germplasm.

Author

Reinprecht, Yarmilla, Schram, Lyndsay, Perry, Gregory E., Morneau, Emily, Smith, Thomas H., and Pauls, K. Peter

Subjects

COMMON bean, LOCUS (Genetics), SINGLE nucleotide polymorphisms, GERMPLASM, DRUG resistance in bacteria, GENE mapping

Abstract

Common bean (bean) is one of the most important legume crops, and mapping genes for yield and yield-related traits is essential for its improvement. However, yield is a complex trait that is typically controlled by many loci in crop genomes. The objective of this research was to identify regions in the bean genome associated with yield and a number of yield-related traits using a collection of 121 diverse bean genotypes with different yields. The beans were evaluated in replicated trials at two locations, over two years. Significant variation among genotypes was identified for all traits analyzed in the four environments. The collection was genotyped with the BARCBean6K_3 chip (5,398 SNPs), two yield/ antiyield gene-based markers, and seven markers previously associated with resistance to common bacterial blight (CBB), including a Niemann–Pick polymorphism (NPP) gene-based marker. Over 90% of the single-nucleotide polymorphisms (SNPs) were polymorphic and separated the panel into two main groups of small-seeded and large-seeded beans, reflecting their Mesoamerican and Andean origins. Thirty-nine significant marker-trait associations (MTAs) were identified between 31 SNPs and 15 analyzed traits on all 11 bean chromosomes. Some of these MTAs confirmed genome regions previously associated with the yield and yield-related traits in bean, but a number of associations were not reported previously, especially those with derived traits. Over 600 candidate genes with different functional annotations were identified for the analyzed traits in the 200-Kb region centered on significant SNPs. Fourteen SNPs were identified within the gene model sequences, and five additional SNPs significantly associated with five different traits were located at less than 0.6 Kb from the candidate genes. The work confirmed associations between two yield/antiyield gene-based markers (AYD1m and AYD2m) on chromosome Pv09 with yield and identified their association with a number of yield-related traits, including seed weight. The results also confirmed the usefulness of the NPP marker in screening for CBB resistance. Since disease resistance and yield measurements are environmentally dependent and laborintensive, the three gene-based markers (CBB- and two yield-related) and quantitative trait loci (QTL) that were validated in this work may be useful tools for simplifying and accelerating the selection of high-yielding and CBB-resistant bean cultivars. [ABSTRACT FROM AUTHOR]

Published

2024

181. Levels of complement factor H-related 4 protein do not influence susceptibility to age-related macular degeneration or its course of progression.

Author

Zouache, M. A., Richards, B. T., Pappas, C. M., Anstadt, R. A., Liu, J., Corsetti, T., Matthews, S., Seager, N. A., Schmitz-Valckenberg, S., Fleckenstein, M., Hubbard, W. C., Thomas, J., Hageman, J. L., Williams, B. L., and Hageman, G. S.

Subjects

MACULAR degeneration, LOCUS (Genetics), RHODOPSIN, LOW vision, VISION disorders, COMPLEMENT activation, COMPLEMENT receptors

Abstract

Dysregulation of the alternative pathway (AP) of the complement system is a significant contributor to age-related macular degeneration (AMD), a primary cause of irreversible vision loss worldwide. Here, we assess the contribution of the liver-produced complement factor H-related 4 protein (FHR-4) to AMD initiation and course of progression. We show that FHR-4 variation in plasma and at the primary location of AMD-associated pathology, the retinal pigment epithelium/Bruch's membrane/choroid interface, is entirely explained by three independent quantitative trait loci (QTL). Using two distinct cohorts composed of a combined 14,965 controls and 20,741 cases, we ascertain that independent QTLs for FHR-4 are distinct from variants causally associated with AMD, and that FHR-4 variation is not independently associated with disease. Additionally, FHR-4 does not appear to influence AMD progression course among patients with disease driven predominantly by AP dysregulation. Modulation of FHR-4 is therefore unlikely to be an effective therapeutic strategy for AMD. Complement factor H-related 4 protein (FHR-4) has been implicated in the pathophysiology of age-related macular degeneration (AMD). Here, in contrast, the authors find that levels of FHR-4 in plasma or ocular tissue do not appear to influence susceptibility to AMD or its course of progression, questioning whether modulation of FHR-4 is likely to be an effective therapeutic strategy. [ABSTRACT FROM AUTHOR]

Published

2024

182. A Mid-Density Single-Nucleotide Polymorphism Panel for Molecular Applications in Cowpea (Vigna unguiculata (L.) Walp).

Author

Ongom, Patrick Obia, Fatokun, Christian, Togola, Abou, Garcia-Oliveira, Ana Luisa, Ng, Eng Hwa, Kilian, Andrzej, Lonardi, Stefano, Close, Timothy J., and Boukar, Ousmane

Subjects

COWPEA, SINGLE nucleotide polymorphisms, LINKAGE disequilibrium, CROPS, GENE frequency, ANIMAL coloration

Abstract

Molecular markers are increasingly being deployed to accelerate genetic gain in crop plants. The objective of this study was to assess the potential of a mid-density genotyping panel for molecular applications in cowpea breeding. A core set of 2,602 targeted diversity array technology (DArTag) single-nucleotide polymorphisms (SNPs) was designed from an existing 51,128 Cowpea iSelect Consortium Array. The panel's usefulness was assessed using 376 genotypes from different populations of known genetic backgrounds. The panel was informative, with over 78% of SNPs exceeding a minor allele frequency of 0.20. The panel decoded three stratifications in the constituted population, as was expected. Linkage disequilibrium (LD) decay was correctly depicted as slower in a biparental subset than in other populations. A known flower and seed coat color gene region was located on chromosome Vu07, suggesting that the mid-density panel may be used to hypothesize genomic regions underlying target traits in cowpea. Unexpected heterozygosity was detected in some lines and highly among F1 progenies, divulging the panel's potential application in germplasm purity and hybridity verification. The study unveils the potential of an excellent genomic resource that can be tapped to enhance the development of improved cowpea cultivars. [ABSTRACT FROM AUTHOR]

Published

2024

183. Comparative genomic characterization of indigenous fat‐tailed Akkaraman sheep with local and transboundary sheep breeds.

Author

Kizilaslan, Mehmet, Arzik, Yunus, Behrem, Sedat, White, Stephen N., and Cinar, Mehmet Ulas

Subjects

SHEEP breeds, SHEEP breeding, SHEEP, DOMESTIC animals, ANIMAL breeds, ANIMAL breeding

Abstract

The domestic sheep with over 1200 breeds descended from those early domesticated animals that are bred for a variety of resources such as meat, milk and wool. Akkaraman, a fat‐tailed indigenous sheep breed of Türkiye, is widespread throughout Central Anatolia, with the largest indigenous sheep population. Assessing the genetic diversity and genomic structure of animal breeds is among the key contributors to deciphering adaptation to environmental extremes and constructing efficient genetic improvement strategies. Therefore, this study aimed to characterize the genome of Akkaraman breed against various world‐renowned transboundary sheep and indigenous sheep with fat and thin tails. Genetic similarities and differences between those breeds have been displayed by estimating and comparing various genetic diversity indices, linkage disequilibrium (LD) estimates and fixation index (FST), runs of homozygosity (ROH) as well as PCA and neighbour‐joining tree analysis. Akkaraman sheep were observed to form a cluster alongside Moghani, Karakas, Tibetan and Cyprus Fat Tail sheep, which are primarily the sole representatives of fat‐tailed sheep in the study. This clustering was evident in both the PCA and neighbour‐joining tree analysis. The Akkaraman sheep was also observed to have the lowest genomic inbreeding and one of the lowest numbers of ROHs, which might also indicate that the breed has not been exposed to historical intensive selection pressure, inbred mating or a massive population bottleneck that might leave strong marks of genomic homozygosity. The results improve our understanding of the genetic diversity in Akkaraman sheep in comparison with certain mainstream sheep breeds as well as those indigenous breeds from around the world. Additionally, findings will also provide valuable insights to perform further GWAS effectively by considering population structure, diversity and LD patterns observed among the breeds while providing practical knowledge that will contribute to designing efficient and successful genome‐based selection programmes for worldwide sheep production systems. [ABSTRACT FROM AUTHOR]

Published

2024

184. Breeding strategies for mitigating cassava brown streak disease in Africa.

Author

Bizimana, Jean Pierre, Ngapout, Yvan, Nyirakanani, Chantal, Shakir, Sara, Kanju, Edouard, Legg, James Peter, Rukundo, Placide, Shimelis, Hussein, Nduwumuremyi, Athanase, and Vanderschuren, Hervé

Subjects

PLANT breeding, STARCH, FARMERS, CROPS, SPECIES, CASSAVA

Abstract

Cassava (Manihot esculenta Crantz), is an important staple crop for about 800 million people worldwide, and a key commodity for the starch industry. However, the potential cassava production is limited by several biotic constraints amongst which cassava brown streak disease (CBSD) is the most economically important disease in Africa. To date, the most sustainable strategy to control CBSD is the use of resistant varieties and the supply of disease-free planting materials to cassava farmers. CBSD breeding activities were initiated in Tanzania in the 1930's and Manihot glaziovii species was used as a donor parent to generate resistant hybrids. Joint regional initiatives through variety development and viruselimination methods have been vital for CBSD management in the last two decades. While conventional breeding is tedious and sources of broad-spectrum resistance are not always available to improve cassava, new plant breeding technologies (NPBTs) appears as a valuable and complementary tool to generate virus resistance as well as to speed up and scale up cassava breeding efforts towards CBSD resistance. This review presents the breeding strategies which have so far been used to manage the CBSD disease and discusses the advantages of integrating NPBTs in current cassava breeding programs to rapidly deliver CBSD-resistant varieties to farmers in Africa. [ABSTRACT FROM AUTHOR]

Published

2024

185. Focused identification of germplasm strategy (FIGS): a strategic approach for trait-enhanced pre-breeding.

Author

Sunitha, N. C., Prathibha, M. D., Thribhuvan, R., Lokeshkumar, B. M., Basavaraj, P. S., Lohithaswa, H. C., and Anilkumar, C.

Abstract

Genebanks maintain a rich source of variation for resistance against many pests and diseases and tolerance to abiotic stresses. However, identifying appropriate germplasm from the collection is frequently impeded by incomplete phenotyping of voluminous collections. The focused identification of germplasm strategy (FIGS) helps to overcome the limitations of phenotyping genebank collections for a target trait. FIGS utilizes a priory information of the evolutionary relationship between trait and environment and helps to phenotype only those accessions with a high probability of having new allelic variation for the target trait. FIGS selects only those accessions that are likely to have evolved in the environments under natural selection pressure. Further, crop genomics and data analytics models can be trained with different filters to identify the best subset with novel alleles. A combination of genomics and data science with FIGS has the potential to improve the efficiency and precision of identifying the best accession to use in pre-breeding for target traits. This review discusses in detail the rationale, importance, strategies, integration with genomics, and applications of FIGS for pre-breeding programs. [ABSTRACT FROM AUTHOR]

Published

2024

186. The genomic architecture of continuous plumage colour variation in the European barn owl (Tyto alba).

Author

Cumer, Tristan, Machado, Ana Paula, San-Jose, Luis M., Ducrest, Anne-Lyse, Simon, Céline, Roulin, Alexandre, and Goudet, Jérôme

Abstract

The maintenance of colour variation in wild populations has long fascinated evolutionary biologists, although most studies have focused on discrete traits exhibiting rather simple inheritance patterns and genetic architectures. However, the study of continuous colour traits and their potentially oligo- or polygenic genetic bases remains rare in wild populations. We studied the genetics of the continuously varying white-to-rufous plumage coloration of the European barn owl (Tyto alba) using a genome-wide association approach on the whole-genome data of 75 individuals. We confirmed a mutation at the melanocortin-1-receptor gene (MC1R) is involved in the coloration and identified two new regions, located in super-scaffolds 9 and 42. The combination of the three regions explains most of the colour variation (80.37%, 95% credible interval 58.45–100%). One discovered region, located in the sex chromosome, differs between the most extreme colorations in owls sharing a specific MC1R genotype. This region may play a role in the colour sex dimorphism of this species, possibly in interaction with the autosomal MC1R. We thus provide insights into the genetic architecture of continuous colour variation, pointing to an oligogenic basis with potential epistatic effects among loci that should aid future studies understanding how continuous colour variation is maintained in nature. [ABSTRACT FROM AUTHOR]

Published

2024

187. The role of the sunflower seed coat and endosperm in the control of seed dormancy and germination: phytohormone profile and their interaction with seed tissues.

Author

Del Bel, Zoé, Andrade, Andrea, Lindström, Lilia, Alvarez, Daniel, Vigliocco, Ana, and Alemano, Sergio

Published

2024

188. PSXIV-6 Comparison of Changes in Snp Effects and Gebv Using Different Training Populations in Simulated Data

Author

Dutta, Gaurav, Santana, Bruna, Ampofo, Issabelle, Curutchet, Agustin, Riser, Molly M, and Fragomeni, Breno O

Abstract

Genome-wide association studies using SNPs aim to capture QTL effects across the genome. However, the results of GWAS vary across studies, even when traits and populations are similar. Fluctuation in estimating SNP effects and variances can be caused by several biological factors such as selection, genetic architecture of trait, and population stratification, and by nonbiological factors, such as method and inflation of the predictor error for SNP effects. The current study aims to compare changes in SNP effects and GEBVs using different training populations. A simulation study was conducted using data from 20,000 individuals generated in the AlphaSimR package in R. Data for a trait with 10 chromosomes were simulated, and linkage disequilibrium was created by random crossing across 1,000 generations. The trait genetic architecture was controlled by 100 loci on each chromosome, accounting for 100% of the genetic variation. Pedigree, phenotypes, and genotypes for all individuals in the population were created, but phenotypes for individuals in the last generation were masked for validation purposes. The training population was then divided into three types comprising all, only odd, and only even animals. Genomic breeding values (GEBV) were estimated using the genomic information by single-step GBLUP. SNP effects and variance were calculated by back-solving the GEBVs. The correlation between all and odd populations was 0.83, all and even populations was 0.81, and odd and even populations were 0.40. Correlations for all 50k SNP effects between all and odd population was 0.75, the all and even population was 0.75, and the odd and even populations was 0.20. Changing the training population data by half led to small changes in accuracy. However, SNP effects fluctuated across populations more than GEBVs. Visual inspection of Manhattan plots showed that the peak regions varied with the training population used. The top regions were more stable and experienced fewer fluctuations, while the intermediate regions varied more often. The largest differences were between the odd and even scenarios. The regions explaining more variance were not the same, and the variations were greater when less data were used for training (odd and even). Overall, the fluctuations in SNP effects in GWAS highlight the complexity of genetic influences on traits, and how sensitive those studies are to small changes in the data. Understanding the factors that contribute to GWAS fluctuations may help improve the design and interpretation of such studies. We expect to derive a novel tool that uses the fluctuations of SNP effects to leverage QTL discovery.

Published

2023

189. An AFLP, SRAP, and SSR Genetic Linkage Map and Identification of QTLs for Fruit Traits in Pear ( Pyrus L.).

Author

Zhang, Rui-ping, Wu, Jun, Li, Xiu-gen, Khan, M., Chen, Hui, Korban, Schuyler, and Zhang, Shao-ling

Subjects

PLANT gene mapping, PEARS, LINKAGE (Genetics), AMPLIFIED fragment length polymorphism, REPEATED sequence (Genetics), PLANT populations, SEEDLINGS, PLANT genetics

Abstract

In this study, a population of 97 F seedlings from a cross between the interspecific hybrid (European × Chinese species) pear 'Bayuehong' (BYH) and the Chinese pear 'Dangshansuli' (DS) was used for establishing linkage maps and for quantitative trait loci (QTL) discovery. Using amplified length polymorphism (AFLP), simple sequence repeat (SSR), and sequence-related amplified polymorphism (SRAP) markers, along with the S locus for self-incompatibility, two parental linkage maps were constructed. The map of BYH consisted of 214 markers (143 AFLPs, 64 SRAPs, 6 SSRs, and S) mapped on all 17 linkage groups of the pear genome with a total length of 1,352.7 cM. The map of DS was comprised of 122 markers (83 AFLPs, 37 SRAPs, 1 SSR, and S) distributed along all 17 linkage groups and covering 1,044.3 cM. Based on phenotypic data from two successive years (2007 and 2008) for six fruit traits, including fruit weight (in grams), fruit diameter (in centimeters), fruit length (in centimeters), soluble solids content, fruit shape index, and maturity date, 19 QTLs were detected. These QTLs were mapped on LG 01, LG 02, LG 05, LG 07, LG 08, LG 10 of the BYH map and LG 02, LG 06, LG 15 of the DS map and accounting for 7.1 to 22.0 % of the observed phenotypic variance. Four QTLs, Pfi-8-1 for fruit shape index, Pfm-8-1 for fruit maturity date, Pfw-7-1 and Pfw-8-1 for fruit weight (in grams), with LOD scores ≥3.5, were deemed as major genes. QTLs Pfi-8-1, Pfm-8-1, and Pfw-8-1 were co-localized on LG 08 of the BYH map, along with Pfl-8-1 for fruit length. It was observed that on LG 07 of the BYH map, QTLs for fruit length, fruit shape index, and fruit weight were clustered. When QTL locations from both years were compared, Pfl-7-1 and Pfl-7-2 for fruit length, Pfi-2-1 and Pfi-2-2 for fruit shape index, and Pfm-8-1 and Pfm-8-2 for fruit maturity date were stably mapped onto the same linkage groups, respectively. Moreover, Pfm-8-1 and Pfm-8-2 were also located within the same region of LG 08 of the BYH map. [ABSTRACT FROM AUTHOR]

Published

2013

190. Potential for detection of marker-trait associations in durum wheat using unbalanced, historical phenotypic datasets.

Author

Pozniak, C., Clarke, J., and Clarke, F.

Subjects

WHEAT breeding, DURUM wheat, LIPOXYGENASE genetics, PHENOTYPIC plasticity in plants, PLANT germplasm, PLANT chromosomes

Abstract

Identification of marker-trait associations in germplasm relevant to a breeding program can be an effective way to identify quantitative trait loci (QTL) useful for selection and is critical to the success of genome-wide selection strategies. This approach is most cost-effective if phenotypic data routinely collected by breeding programs is used, necessitating only addition of genotypic data. The objective of this work was to evaluate such an approach using unbalanced phenotypic data from durum wheat ( Triticum turgidum L. var. durum) registration trials genotyped with diversity arrays technology (DArT) markers. Plant height, grain cadmium concentration and yellow colour loss during pasta manufacture were chosen as example traits because all are influenced by major genes associated with known QTL. A further evaluation was performed on semolina yellow pigment concentration, a more complexly-inherited trait, but with numerous QTL identified. In total, 870 informative DArT markers were used to detect marker-trait associations. The genome coverage of markers was uneven, with low coverage of chromosomes 4B and 5A. The DArT coverage of chromosome 4B was too sparse to identify markers strongly associated with the semidwarf height locus Rht- B1 and the lipoxygenase locus Lpx- B1, both known to reside on 4B. The 20 DArT markers associated with pigment concentration localized to chromosomes 1B, 2A, 5B, 6A, 7A and 7B, linked to the trait in other studies. One DArT clone showed sequence identity to a single wheat expressed sequence tag that maps to the same deletion bin as Psy1- A1, a gene previously associated with yellow pigment concentration in durum wheat. Three markers were associated with grain cadmium and explained similar proportions of the phenotypic variance as the Xusw14 marker known to be physically linked to Cdu- B1, a major locus on 5B regulating cadmium accumulation. The sequences of these three DArT markers were 98 % identical, and were used to identify a single gene in rice that is physically linked to other rice genes that co-localize with Cdu- B1 in durum wheat. The results suggest that this historical phenotypic dataset is useful for QTL discovery and would potentially be a 'training population' for genomic selection when a high-density, low-cost marker platform becomes available. [ABSTRACT FROM AUTHOR]

Published

2012

191. Sheath-blight resistance QTLS in japonica rice germplasm.

Author

Nelson, J., Oard, J., Groth, D., Utomo, H., Jia, Y., Liu, G., Moldenhauer, K., Correa-Victoria, F., Fjellstrom, R., Scheffler, B., and Prado, G.

Subjects

DISEASE resistance of plants, RICE sheath blight, RICE varieties, PLANT germplasm, PLANT breeding

Abstract

Sheath blight (SB), caused by Rhizoctonia solani, is a serious disease of cultivated rice ( Oryza sativa L.) for which genetic resistance is in demand by breeders. With the goal of resistance (SBR)-QTL discovery in U. S. japonica breeding material, 197 doubled-haploid lines from a cross between MCR10277 (resistant) and Cocodrie (susceptible) were evaluated in field and greenhouse assays with U. S. and Colombian pathogen isolates and genotyped at 111 microsatellite marker loci. Four SBR QTLs from MCR10277 were identified, together accounting for 47% of field genetic variation. In all trials the strongest effect was provided by a chromosome-9 QTL, qsbr_9.1, but some QTLs differed for U. S. and Colombian R. solani isolates. SBR QTLs coincided with only two of several height or heading-time QTLs, suggesting that the relationship between these developmental traits and SBR is not simple. For the U. S. isolates, a microchamber greenhouse assay revealed the same QTLs as did field inoculation. [ABSTRACT FROM AUTHOR]

Published

2012

192. Genome wide SNP discovery in flax through next generation sequencing of reduced representation libraries.

Author

Kumar, Santosh, You, Frank M., and Cloutier, Sylvie

Subjects

SINGLE nucleotide polymorphisms, FLAX, OILSEEDS, ISOENZYMES, GENE mapping

Abstract

Background: Flax (Linum usitatissimum L.) is a significant fibre and oilseed crop. Current flax molecular markers, including isozymes, RAPDs, AFLPs and SSRs are of limited use in the construction of high density linkage maps and for association mapping applications due to factors such as low reproducibility, intense labour requirements and/or limited numbers. We report here on the use of a reduced representation library strategy combined with next generation Illumina sequencing for rapid and large scale discovery of SNPs in eight flax genotypes. SNP discovery was performed through in silico analysis of the sequencing data against the whole genome shotgun sequence assembly of flax genotype CDC Bethune. Genotyping-by-sequencing of an F6-derived recombinant inbred line population provided validation of the SNPs. Results: Reduced representation libraries of eight flax genotypes were sequenced on the Illumina sequencing platform resulting in sequence coverage ranging from 4.33 to 15.64X (genome equivalents). Depending on the relatedness of the genotypes and the number and length of the reads, between 78% and 93% of the reads mapped onto the CDC Bethune whole genome shotgun sequence assembly. A total of 55,465 SNPs were discovered with the largest number of SNPs belonging to the genotypes with the highest mapping coverage percentage. Approximately 84% of the SNPs discovered were identified in a single genotype, 13% were shared between any two genotypes and the remaining 3% in three or more. Nearly a quarter of the SNPs were found in genic regions. A total of 4,706 out of 4,863 SNPs discovered in Macbeth were validated using genotyping-by-sequencing of 96 F6 individuals from a recombinant inbred line population derived from a cross between CDC Bethune and Macbeth, corresponding to a validation rate of 96.8%. Conclusions: Next generation sequencing of reduced representation libraries was successfully implemented for genome-wide SNP discovery from flax. The genotyping-by-sequencing approach proved to be efficient for validation. The SNP resources generated in this work will assist in generating high density maps of flax and facilitate QTL discovery, marker-assisted selection, phylogenetic analyses, association mapping and anchoring of the whole genome shotgun sequence. [ABSTRACT FROM AUTHOR]

Published

2012

193. Genomic regions associated with resistance to peanut bud necrosis disease (PBND) in a recombinant inbred line (RIL) population.

Author

Jadhav, Yashoda, Manohar, Surendra S., Sunkad, Gururaj, Kannalli, Viswanatha P., Pandey, Manish K., Variath, Murali T., Yaduru, Shasidhar, Kona, Praveen, Varshney, Rajeev K., and Pasupuleti, Janila

Subjects

*GENOTYPE-environment interaction, *PEANUTS, *NECROSIS, *MICROSATELLITE repeats, *BUDS

Abstract

Parents and 318 F8 recombinant inbred lines (RILs) derived from the cross, TAG 24 × ICGV 86031 were evaluated for peanut bud necrosis disease (PBND) resistance and agronomic traits under natural infestation of thrips at a disease hotspot location for 2 years. Significant genotype, environment and genotype × environment interaction effects suggested role of environment in development and spread of the disease. Quantitative trait loci (QTL) analysis using QTL Cartographer identified a total of 14 QTL for six traits of which five QTL were for disease incidence. One quantitative trait locus q60DI located on LG_AhII was identified using both QTL Cartographer and QTL Network. Another QTL q90DI was detected with a high PVE of 12.57 using QTL Cartographer. A total of nine significant additive × additive (AA) interactions were detected for PBND disease incidence and yield traits with two and seven interactions displaying effects in favour of the parental and recombinant genotype combinations, respectively. This is the first attempt on QTL discovery associated with PBND resistance in peanut. Superior RILs identified in the study can be recycled or released as variety following further evaluations. [ABSTRACT FROM AUTHOR]

Published

2019

194. High-density multi-population consensus genetic linkage map for peach

Author

Department of Agriculture (US), Ministerio de Economía y Competitividad (España), Generalitat de Catalunya, Ministero delle Politiche Agricole Alimentari e Forestali, Silva Linge, Cassia da, Antanaviciute, Laima, Abdelghafar, Asma, Arús, Pere, Bassi, Daniele, Rossini, Laura, Ficklin, Stephen, Gasic, Ksenija, Department of Agriculture (US), Ministerio de Economía y Competitividad (España), Generalitat de Catalunya, Ministero delle Politiche Agricole Alimentari e Forestali, Silva Linge, Cassia da, Antanaviciute, Laima, Abdelghafar, Asma, Arús, Pere, Bassi, Daniele, Rossini, Laura, Ficklin, Stephen, and Gasic, Ksenija

Abstract

Highly saturated genetic linkage maps are extremely helpful to breeders and are an essential prerequisite for many biological applications such as the identification of marker-trait associations, mapping quantitative trait loci (QTL), candidate gene identification, development of molecular markers for marker-assisted selection (MAS) and comparative genetic studies. Several high-density genetic maps, constructed using the 9K SNP peach array, are available for peach. However, each of these maps is based on a single mapping population and has limited use for QTL discovery and comparative studies. A consensus genetic linkage map developed from multiple populations provides not only a higher marker density and a greater genome coverage when compared to the individual maps, but also serves as a valuable tool for estimating genetic positions of unmapped markers. In this study, a previously developed linkage map from the cross between two peach cultivars ‘Zin Dai’ and ‘Crimson Lady’ (ZC2) was improved by genotyping additional progenies. In addition, a peach consensus map was developed based on the combination of the improved ZC2 genetic linkage map with three existing high-density genetic maps of peach and a reference map of Prunus. A total of 1,476 SNPs representing 351 unique marker positions were mapped across eight linkage groups on the ZC2 genetic map. The ZC2 linkage map spans 483.3 cM with an average distance between markers of 1.38 cM/marker. The MergeMap and LPmerge tools were used for the construction of a consensus map based on markers shared across five genetic linkage maps. The consensus linkage map contains a total of 3,092 molecular markers, consisting of 2,975 SNPs, 116 SSRs and 1 morphological marker associated with slow ripening in peach (SR). The consensus map provides valuable information on marker order and genetic position for QTL identification in peach and other genetic studies within Prunus and Rosaceae.

Published

2018

195. An integrated approach for increasing breeding efficiency in apple and peach in Europe

Author

European Commission, Laurens, François, Aranzana, Maria José, Arús, Pere, Bassi, Daniele, Bink, Marco, Bonany, Joan, Caprera, Andrea, Corelli-Grappadelli, Luca, Costes, Evelyne, Durel, Charles-Eric, Mauroux, Jehan-Baptiste, Muranty, Hélène, Nazzicari, Nelson, Pascal, Thierry, Patocchi, Andrea, Peil, Andreas, Quilot-Turion, Benedicte, Rossini, Laura, Stella, Alessandra, Troggio, Michela, Velasco, Riccardo, Weg, Eric van de, European Commission, Laurens, François, Aranzana, Maria José, Arús, Pere, Bassi, Daniele, Bink, Marco, Bonany, Joan, Caprera, Andrea, Corelli-Grappadelli, Luca, Costes, Evelyne, Durel, Charles-Eric, Mauroux, Jehan-Baptiste, Muranty, Hélène, Nazzicari, Nelson, Pascal, Thierry, Patocchi, Andrea, Peil, Andreas, Quilot-Turion, Benedicte, Rossini, Laura, Stella, Alessandra, Troggio, Michela, Velasco, Riccardo, and Weg, Eric van de

Abstract

Despite the availability of whole genome sequences of apple and peach, there has been a considerable gap between genomics and breeding. To bridge the gap, the European Union funded the FruitBreedomics project (March 2011 to August 2015) involving 28 research institutes and private companies. Three complementary approaches were pursued: (i) tool and software development, (ii) deciphering genetic control of main horticultural traits taking into account allelic diversity and (iii) developing plant materials, tools and methodologies for breeders. Decisive breakthroughs were made including the making available of ready-to-go DNA diagnostic tests for Marker Assisted Breeding, development of new, dense SNP arrays in apple and peach, new phenotypic methods for some complex traits, software for gene/QTL discovery on breeding germplasm via Pedigree Based Analysis (PBA). This resulted in the discovery of highly predictive molecular markers for traits of horticultural interest via PBA and via Genome Wide Association Studies (GWAS) on several European genebank collections. FruitBreedomics also developed pre-breeding plant materials in which multiple sources of resistance were pyramided and software that can support breeders in their selection activities. Through FruitBreedomics, significant progresses were made in the field of apple and peach breeding, genetics, genomics and bioinformatics of which advantage will be made by breeders, germplasm curators and scientists. A major part of the data collected during the project has been stored in the FruitBreedomics database and has been made available to the public. This review covers the scientific discoveries made in this major endeavour, and perspective in the apple and peach breeding and genomics in Europe and beyond.

Published

2018

196. An integrated approach for increasing breeding efficiency in apple and peach in Europe

Author

Laurens, Francois, Aranzana, Maria José, Arus, Pere, Bassi, Daniele, Bink, Marco, Bonany, Joan, Caprera, Andrea, Corelli-Grappadelli, Luca, Costes, Evelyne, Durel, Charles Eric, Mauroux, Jehan Baptiste, Muranty, Hélène, Nazzicari, Nelson, Pascal, Thierry, Patocchi, Andrea, Peil, Andreas, Quilot-Turion, Bénédicte, Rossini, Laura, Stella, Alessandra, Troggio, Michela, Velasco, Riccardo, Van De Weg, Eric, Laurens, Francois, Aranzana, Maria José, Arus, Pere, Bassi, Daniele, Bink, Marco, Bonany, Joan, Caprera, Andrea, Corelli-Grappadelli, Luca, Costes, Evelyne, Durel, Charles Eric, Mauroux, Jehan Baptiste, Muranty, Hélène, Nazzicari, Nelson, Pascal, Thierry, Patocchi, Andrea, Peil, Andreas, Quilot-Turion, Bénédicte, Rossini, Laura, Stella, Alessandra, Troggio, Michela, Velasco, Riccardo, and Van De Weg, Eric

Abstract

Despite the availability of whole genome sequences of apple and peach, there has been a considerable gap between genomics and breeding. To bridge the gap, the European Union funded the FruitBreedomics project (March 2011 to August 2015) involving 28 research institutes and private companies. Three complementary approaches were pursued: (i) tool and software development, (ii) deciphering genetic control of main horticultural traits taking into account allelic diversity and (iii) developing plant materials, tools and methodologies for breeders. Decisive breakthroughs were made including the making available of ready-to-go DNA diagnostic tests for Marker Assisted Breeding, development of new, dense SNP arrays in apple and peach, new phenotypic methods for some complex traits, software for gene/QTL discovery on breeding germplasm via Pedigree Based Analysis (PBA). This resulted in the discovery of highly predictive molecular markers for traits of horticultural interest via PBA and via Genome Wide Association Studies (GWAS) on several European genebank collections. FruitBreedomics also developed pre-breeding plant materials in which multiple sources of resistance were pyramided and software that can support breeders in their selection activities. Through FruitBreedomics, significant progresses were made in the field of apple and peach breeding, genetics, genomics and bioinformatics of which advantage will be made by breeders, germplasm curators and scientists. A major part of the data collected during the project has been stored in the FruitBreedomics database and has been made available to the public. This review covers the scientific discoveries made in this major endeavour, and perspective in the apple and peach breeding and genomics in Europe and beyond.

Published

2018

197. Identification of a Rice stripe necrosis virus resistance locus and yield component QTLs using Oryza sativa x O. glaberrima introgression lines.

Author

Gutiérrez, Andrés Gonzalo, Carabalí, Silvio James, Giraldo, Olga Ximena, Martínez, César Pompilio, Correa, Fernando, Prado, Gustavo, Tohme, Joe, and Lorieux, Mathias

Subjects

RICE genetics, AGRONOMY, PLANT chromosomes, PLANT breeding, GENE mapping

Abstract

Background: Developing new population types based on interspecific introgressions has been suggested by several authors to facilitate the discovery of novel allelic sources for traits of agronomic importance. Chromosome segment substitution lines from interspecific crosses represent a powerful and useful genetic resource for QTL detection and breeding programs. Results: We built a set of 64 chromosome segment substitution lines carrying contiguous chromosomal segments of African rice Oryza glaberrima MG12 (acc. IRGC103544) in the genetic background of Oryza sativa ssp. tropical japonica (cv. Caiapó). Well-distributed simple-sequence repeats markers were used to characterize the introgression events. Average size of the substituted chromosomal segments in the substitution lines was about 10 cM and covered the whole donor genome, except for small regions on chromosome 2 and 4. Proportions of recurrent and donor genome in the substitution lines were 87.59% and 7.64%, respectively. The remaining 4.78% corresponded to heterozygotes and missing data. Strong segregation distortion was found on chromosomes 3 and 6, indicating the presence of interspecific sterility genes. To illustrate the advantages and the power of quantitative trait loci (QTL) detection using substitution lines, a QTL detection was performed for scored traits. Transgressive segregation was observed for several traits measured in the population. Fourteen QTLs for plant height, tiller number per plant, panicle length, sterility percentage, 1000-grain weight and grain yield were located on chromosomes 1, 3, 4, 6 and 9. Furthermore, a highly significant QTL controlling resistance to the Rice stripe necrosis virus was located between SSR markers RM202-RM26406 (44.5-44.8 cM) on chromosome 11. Conclusions: Development and phenotyping of CSSL libraries with entire genome coverage represents a useful strategy for QTL discovery. Mapping of the RSNV locus represents the first identification of a genetic factor underlying resistance to this virus. This population is a powerful breeding tool. It also helps in overcoming hybrid sterility barriers between species of rice. [ABSTRACT FROM AUTHOR]

Published

2010

198. Development of a SNP resource and a geneticlinkage map for Atlantic cod (Gadus morhua).

Author

Hubert, Sophie, Higgins, Brent, Borza, Tudor, and Bowman, Sharen

Subjects

ATLANTIC cod, GENES, AQUACULTURE, GENETIC polymorphisms, PHENOTYPES

Abstract

Background: Atlantic cod (Gadus morhua) is a species with increasing economic significance for the aquaculture industry. The genetic improvement of cod will play a critical role in achieving successful large-scale aquaculture. While many microsatellite markers have been developed in cod, the number of single nucleotide polymorphisms (SNPs) is currently limited. Here we report the identification of SNPs from sequence data generated by a large-scale expressed sequence tag (EST) program, focusing on fish originating from Canadian waters. Results: A total of 97976 ESTs were assembled to generate 13448 contigs. We detected 4753 SNPs that met our selection criteria (depth of coverage ≥ 4 reads; minor allele frequency > 25%). 3072 SNPs were selected for testing. The percentage of successful assays was 75%, with 2291 SNPs amplifying correctly. Of these, 607 (26%) SNPs were monomorphic for all populations tested. In total, 64 (4%) of SNPs are likely to represent duplicated genes or highly similar members of gene families, rather than alternative alleles of the same gene, since they showed a high frequency of heterozygosity. The remaining polymorphic SNPs (1620) were categorised as validated SNPs. The mean minor allele frequency of the validated loci was 0.258 (± 0.141). Of the 1514 contigs from which validated SNPs were selected, 31% have a significant blast hit. For the SNPs predicted to occur in coding regions (141), we determined that 36% (51) are non-synonymous. Many loci (1033 SNPs; 64%) are polymorphic in all populations tested. However a small number of SNPs (184) that are polymorphic in the Western Atlantic were monomorphic in fish tested from three European populations. A preliminary linkage map has been constructed with 23 major linkage groups and 924 mapped SNPs. Conclusions: These SNPs represent powerful tools to accelerate the genetic improvement of cod aquaculture. They have been used to build a genetic linkage map that can be applied to quantitative trait locus (QTL) discovery. Since these SNPs were generated from ESTs, they are linked to specific genes. Genes that map within QTL intervals can be prioritized for testing to determine whether they contribute to observed phenotypes. [ABSTRACT FROM AUTHOR]

Published

2010

199. A Quantitative Trait Locus on Chromosome 5p Influences D-Dimer Levels in the San Antonio Family Heart Study.

Author

Diego, V. P., Almasy, L., Rainwater, D. L., Mahaney, M. C., Comuzzie, A. G., Cole, S. A., Tracy, R. P., Stern, M. P., MacCluer, J. W., and Blangero, J.

Abstract

Background. D-dimer is associated with increasing severity of atherosclerosis and with increased risk of a cardiovascular disease (CVD).Methods and Results. To better understand this risk factor, we performed a genome scan on 803 (301 males and 502 females) Mexican Americans in the San Antonio Family Heart Study (SAFHS). The SAFHS is ideal for the discovery of quantitative trait loci (QTLs) influencing CVD because CVD risk factors are prevalent inMexican Americans of San Antonio and because the study design involves large families, which is optimal for QTL discovery. D-dimer levels were normalized in our study. We found that D-dimer levels were heritable, at about 23% heritability (P ≈ .00001). In a linkage analysis employing 432 microsatellite markers, we found strong evidence of a QTL on chromosome 5p with a lod score of 3.32 at 21 centiMorgans (cM).We also found suggestive evidence of a QTL on chromosome 2q with a lod score of 2.33 at 207 cM. Conclusions. To our knowledge, the putative QTL on chromosome 5p is novel. The possible QTL on chromosome 2q is discussed in relation to a recent report of linkage of a related hemostatic factor to the same location. These results warrant further investigation. [ABSTRACT FROM AUTHOR]

Published

2010

200. Genetic control of soybean seed isoflavone content: importance of statistical model and epistasis in complex traits.

Author

Gutierrez-Gonzalez, Juan Jose, Xiaolei Wu, Juan Zhang, Jeong-Dong Lee, Ellersieck, Mark, Shannon, J. Grover, Yu, Oliver, Nguyen, Henry T., and Sleper, David A.

Subjects

FORAGE plants, SOYBEAN, ACETIC acid, ISOFLAVONES, AGRICULTURAL industries

Abstract

A major objective for geneticists is to decipher genetic architecture of traits associated with agronomic importance. However, a majority of such traits are complex, and their genetic dissection has been traditionally hampered not only by the number of minor-effect quantitative trait loci (QTL) but also by genome-wide interacting loci with little or no individual effect. Soybean ( Glycine max [L.] Merr.) seed isoflavonoids display a broad range of variation, even in genetically stabilized lines that grow in a fixed environment, because their synthesis and accumulation are affected by many biotic and abiotic factors. Due to this complexity, isoflavone QTL mapping has often produced conflicting results especially with variable growing conditions. Herein, we comparatively mapped soybean seed isoflavones genistein, daidzein, and glycitein by using several of the most commonly used mapping approaches: interval mapping, composite interval mapping, multiple interval mapping and a mixed-model based composite interval mapping. In total, 26 QTLs, including many novel regions, were found bearing additive main effects in a population of RILs derived from the cross between Essex and PI 437654. Our comparative approach demonstrates that statistical mapping methodologies are crucial for QTL discovery in complex traits. Despite a previous understanding of the influence of additive QTL on isoflavone production, the role of epistasis is not well established. Results indicate that epistasis, although largely dependent on the environment, is a very important genetic component underlying seed isoflavone content, and suggest epistasis as a key factor causing the observed phenotypic variability of these traits in diverse environments. [ABSTRACT FROM AUTHOR]

Published

2009