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991.
Controlling for P‐value inflation in allele frequency change in experimental evolution and artificial selection experiments 下载免费PDF全文
Petri Kemppainen Bernt Rønning Thomas Kvalnes Ingerid J. Hagen Thor Harald Ringsby Anna M. Billing Henrik Pärn Sigbjørn Lien Arild Husby Bernt‐Erik Sæther Henrik Jensen 《Molecular ecology resources》2017,17(4):770-782
Experimental evolution studies can be used to explore genomic response to artificial and natural selection. In such studies, loci that display larger allele frequency change than expected by genetic drift alone are assumed to be directly or indirectly associated with traits under selection. However, such studies report surprisingly many loci under selection, suggesting that current tests for allele frequency change may be subject to P‐value inflation and hence be anticonservative. One factor known from genomewide association (GWA) studies to cause P‐value inflation is population stratification, such as relatedness among individuals. Here, we suggest that by treating presence of an individual in a population after selection as a binary response variable, existing GWA methods can be used to account for relatedness when estimating allele frequency change. We show that accounting for relatedness like this effectively reduces false‐positives in tests for allele frequency change in simulated data with varying levels of population structure. However, once relatedness has been accounted for, the power to detect causal loci under selection is low. Finally, we demonstrate the presence of P‐value inflation in allele frequency change in empirical data spanning multiple generations from an artificial selection experiment on tarsus length in two free‐living populations of house sparrow and correct for this using genomic control. Our results indicate that since allele frequencies in large parts of the genome may change when selection acts on a heritable trait, such selection is likely to have considerable and immediate consequences for the eco‐evolutionary dynamics of the affected populations. 相似文献
992.
Xiaolong Li Jugpreet Singh Mengfan Qin Siwei Li Xun Zhang Mingyue Zhang Awais Khan Shaoling Zhang Jun Wu 《Plant biotechnology journal》2019,17(8):1582-1594
Pear (Pyrus; 2n = 34), the third most important temperate fruit crop, has great nutritional and economic value. Despite the availability of many genomic resources in pear, it is challenging to genotype novel germplasm resources and breeding progeny in a timely and cost‐effective manner. Genotyping arrays can provide fast, efficient and high‐throughput genetic characterization of diverse germplasm, genetic mapping and breeding populations. We present here 200K AXIOM® PyrSNP, a large‐scale single nucleotide polymorphism (SNP) genotyping array to facilitate genotyping of Pyrus species. A diverse panel of 113 re‐sequenced pear genotypes was used to discover SNPs to promote increased adoption of the array. A set of 188 diverse accessions and an F1 population of 98 individuals from ‘Cuiguan’ × ‘Starkrimson’ was genotyped with the array to assess its effectiveness. A large majority of SNPs (166 335 or 83%) are of high quality. The high density and uniform distribution of the array SNPs facilitated prediction of centromeric regions on 17 pear chromosomes, and significantly improved the genome assembly from 75.5% to 81.4% based on genetic mapping. Identification of a gene associated with flowering time and candidate genes linked to size of fruit core via genome wide association studies showed the usefulness of the array in pear genetic research. The newly developed high‐density SNP array presents an important tool for rapid and high‐throughput genotyping in pear for genetic map construction, QTL identification and genomic selection. 相似文献
993.
Schrauzer Gerhard N. Shrestha Krishna P. Molenaar Tammy B. Mead Sherri 《Biological trace element research》1986,10(2):79-89
Essentiality of selenium (Se) for Japanese quail,Coturnix coturnix japonica, was confirmed using a formulated semipurified low-Se diet (basal) (0.05 ppm). Selenium-deficiency symptoms appeared in quails
on this diet within 15 d, which corresponded to low levels of hemolysate glutathione peroxidase (GSH-Px) activity. Selenium
administration at 0.05 and 2.0 ppm levels resulted in an increase of hemolysate GSH-Px activity by 64 and 116%, respectively,
in both short- and long-term experiments. Growth over a 2-mo period increased the hemolysate GSH-Px activity by 120% at each
level of dietary Se. A differential response was exhibited by hepatic mitochondrial and soluble GSH-Px activity to Se supplementation,
the former increasing progressively with increments of Se at 0.05, 2.0, and 4.0 ppm by 45, 70 and 150%, respectively. The
soluble GSH-Px activities of tissues, such as liver, kidney, and testis, and RBC membrane-bound activity remained unchanged
in long-term studies at different levels of Se. Replenishment of Se to quails maintained on low-Se diets reflected no change
in RBC membrane-bound and liver-soluble GSH-Px activities, although the activity in hemolysate increased consistently with
Se. The GSH-Px activity in hemolysate was restored to the levels comparable to those of long-term studies only at Se administration
at the 2.0-ppm level. The differential response of mitochondrial and soluble GSH-Px activities to Se and other related observations
on mitochondrial functions suggest an additional role for Se in mitochondrial membrane processes and glutathione-related metabolic
regulations. 相似文献
994.
Both monomeric and dimeric NADP+-dependent isocitrate dehydrogenase (IDH) belong to the metal-dependent beta-decarboxylating dehydrogenase family and catalyze the oxidative decarboxylation from 2R,3S-isocitrate to yield 2-oxoglutarate, CO2, and NADPH. It is important to solve the structures of IDHs from various species to correlate with its function and evolutionary significance. So far, only two crystal structures of substrate/cofactor-bound (isocitrate/NADP) NADP+-dependent monomeric IDH from Azotobacter vinelandii (AvIDH) have been solved. Herein, we report for the first time the substrate/cofactor-free structure of a monomeric NADP+-dependent IDH from Corynebacterium glutamicum (CgIDH) in the presence of Mg2+. The 1.75 A structure of CgIDH-Mg2+ showed a distinct open conformation in contrast to the closed conformation of AvIDH-isocitrate/NADP+ complexes. Fluorescence studies on CgIDH in the presence of isocitrate/or NADP+ suggest the presence of low energy barrier conformers. In CgIDH, the amino acid residues corresponding to the Escherichia coli IDH phosphorylation-loop are alpha-helical compared with the more flexible random-coil region in the E. coli protein where IDH activation is controlled by phosphorylation. This more structured region supports the idea that activation of CgIDH is not controlled by phosphorylation. Monomeric NADP+-specific IDHs have been identified from about 50 different bacterial species, such as proteobacteria, actinobacteria, and planctomycetes, whereas, dimeric NADP+-dependent IDHs are diversified in both prokaryotes and eukaryotes. We have constructed a phylogenetic tree based on amino acid sequences of all bacterial monomeric NADP+-dependent IDHs and also another one with specifically chosen species which either contains both monomeric and dimeric NADP+-dependent IDHs or have monomeric NADP+-dependent, as well as NAD+-dependent IDHs. This is done to examine evolutionary relationships. 相似文献
995.
L. Tang Y. Tong H. Cao S. Xie Q. Yang F. Zhang Q. Zhu L. Huang Q. Lü Y. Yang D. Li M. Chen C. Yu W. Jin Y. Yuan N. Tong 《Gene》2014
Background
Polymorphism of rs2293855 in gene MTMR9 has been associated with obesity and metabolic syndrome. We aim to study the association of rs2293855 with type 2 diabetes mellitus (T2DM) intermediate phenotypes in a Han Chinese population.Methods
The polymorphism was genotyped in 838 Han Chinese individuals using Matrix-Assisted Laser Desorption/Ionization Time of Flight Mass Spectrometry (MALDI-TOF MS); all participants underwent a 75 g oral glucose tolerance test (OGTT); associations between the polymorphism and glucose tolerance, indices of insulin secretion and indices of insulin sensitivity were analyzed.Results
The frequency of genotypes and alleles differed significantly between normal glucose tolerance and prediabetes (P = 0.043 and P = 0.009, respectively). The GG homozygous presented higher fasting plasma glucose (P = 0.009), higher 2-hour plasma glucose (P = 0.024) and higher glucose area under the curve (AUC, P = 0.01). Moreover, the G allele of rs2293855 was associated with glucose intolerance (fasting glucose, P = 0.012; glucose AUC, P = 0.006; 2-h glucose, P = 0.024); it is also associated with decreased indices of insulin sensitivity (fasting insulin, P = 0.043; insulin sensitivity index composite, P = 0.009; homeostasis model assessment of insulin resistance, HOMA-IR, P = 0.008) and decreased indices of insulin secretion (HOMA of beta cell function, HOMA-B, P = 0.028; insulinogenic index, P = 0.003). In addition, the minor allele G was also associated with increased risk of prediabetes (OR = 1.463, 95%CI: 1.066–2.009, P = 0.018).Conclusions
Polymorphism of rs2293855 in MTMR9 is associated with measures of glucose tolerance, indices of insulin secretion and indices of insulin sensitivity. We also suggest that allele G is likely to increase the risk of prediabetes by influencing both insulin secretion and insulin sensitivity. 相似文献996.
Ameya S. Kulkarni Sandra Aleksic David M. Berger Felipe Sierra George
A. Kuchel Nir Barzilai 《Aging cell》2022,21(4)
Common chronic diseases represent the greatest driver of rising healthcare costs, as well as declining function, independence, and quality of life. Geroscience‐guided approaches seek to delay the onset and progression of multiple chronic conditions by targeting fundamental biological pathways of aging. This approach is more likely to improve overall health and function in old age than treating individual diseases, by addressing aging the largest and mostly ignored risk factor for the leading causes of morbidity in older adults. Nevertheless, challenges in repurposing existing and moving newly discovered interventions from the bench to clinical care have impeded the progress of this potentially transformational paradigm shift. In this article, we propose the creation of a standardized process for evaluating FDA‐approved medications for their geroscience potential. Criteria for systematically evaluating the existing literature that spans from animal models to human studies will permit the prioritization of efforts and financial investments for translating geroscience and allow immediate progress on the design of the next Targeting Aging with MEtformin (TAME)‐like study involving such candidate gerotherapeutics. 相似文献
997.
998.
999.
E. L. Nicolazzi S. Biffani F. Biscarini P. Orozco ter Wengel A. Caprera N. Nazzicari A. Stella 《Animal genetics》2015,46(4):343-353
Since the beginning of the genomic era, the number of available single nucleotide polymorphism (SNP) arrays has grown considerably. In the bovine species alone, 11 SNP chips not completely covered by intellectual property are currently available, and the number is growing. Genomic/genotype data are not standardized, and this hampers its exchange and integration. In addition, software used for the analyses of these data usually requires not standard (i.e. case specific) input files which, considering the large amount of data to be handled, require at least some programming skills in their production. In this work, we describe a software toolkit for SNP array data management, imputation, genome‐wide association studies, population genetics and genomic selection. However, this toolkit does not solve the critical need for standardization of the genotypic data and software input files. It only highlights the chaotic situation each researcher has to face on a daily basis and gives some helpful advice on the currently available tools in order to navigate the SNP array data complexity. 相似文献
1000.
Summary Somatic embryos of pineapple guava (Feijoa sellowiana Berg, Myrtaceae) were induced particularly well from the adaxial face of the cotyledons of zygotic embryos cultured on MS medium containing 1.0 mg/l 2,4-D and 0.3 M sucrose. Somatic embryos were never obtained from globular and heart-shaped zygotic embryos and embryos at the torpedo stage produced somatic embryos at lower frequencies than mature zygotic embryos. At the time of explantation, cotyledonary cells were rich in storage proteins and lipids but no starch was found. After the first 5 days of culture most of the reserves had been mobilized in cotyledons of germinating embryos, but were still present in large amounts in cotyledons undergoing embryogenie induction. In contrast to cotyledons following the normal pattern of development, cells of embryogenically-induced cotyledons accumulated starch, especially those cells not involved in the embryogenie process. Two patterns of somatic embryo differentiation were observed: (1) from single epidermal cells or (2) from groups of meristematic cells near the adaxial surface. Comparative observations on cotyledons from germinating embryos and those undergoing embryogenesis suggest that the meristematic layer arises as the result of successive divisions of cells that, under normal conditions, would form the palisade parenchyma. These were the only mesophyll cells that showed mitotic divisions during the normal development.Abbreviations 2,4-D
2,4-dichlorophenoxyacetic acid
- FAA
formalin/acetic acid/ethyl alcohol
- PAS
periodic acid-Schiff 相似文献