0000000001070162
AUTHOR
Paolo Ajmone Marsan
MOESM13 of Conservation status and historical relatedness of Italian cattle breeds
Additional file 13: Figure S7. Genetic relationship defined with multidimensional scaling analysis between Italian and 62 European cattle breeds. The breeds were grouped according to their geographical origins and distributions. Northern_Europe (Belgian Blue, Dexter, Kerry, Lithuanian Light Grey, Lithuanian White Backed, Groningen Whitehead, Lakenvelder, Meuse-Rhine-Ijjsel, Norwegian Red, Finnish Ayrshire, Belted Galloway, Galloway, Angus, Scottish Highland, South Devon), England (Devon, Guernsey, Hereford, Longhorn, Lincoln Red, Milking Shorthorn, Red Poll, Beef Shorthorn, Sussex, Welsh Blach, White Park), Spain (Berrenda en Negro, Berrenda en Colorado, Cardena Andaluza, Menorquina, Pirena…
MOESM6 of Conservation status and historical relatedness of Italian cattle breeds
Additional file 6: Figure S3. Distribution of all ROH within breeds according to their size (kb).
Runs of homozygosity in the Italian goat breeds: impact of management practices in low-input systems
Abstract Background Climate and farming systems, several of which are considered as low-input agricultural systems, vary between goat populations from Northern and Southern Italy and have led to different management practices. These processes have impacted genome shaping in terms of inbreeding and regions under selection and resulted in differences between the northern and southern populations. Both inbreeding and signatures of selection can be pinpointed by the analysis of runs of homozygosity (ROH), which provides useful information to assist the management of this species in different rural areas. Results We analyzed the ROH distribution and inbreeding (FROH) in 902 goats from the Italia…
MOESM2 of Conservation status and historical relatedness of Italian cattle breeds
Additional file 2: Table S1. Name of the breeds, geographic coordinates (longitude and latitude) of the center of origin, sample size before (n-PreQC) and after (n-PostQC) genotyping quality control, and origin of genotyping data.
MOESM3 of Conservation status and historical relatedness of Italian cattle breeds
Additional file 3: Figure S1. Trends in historic effective population size (Ne) (from 13 to 98 generations).
MOESM1 of Conservation status and historical relatedness of Italian cattle breeds
Additional file 1. Description of each Italian local cattle breed involved in this study [68].
Additional file 2 of Runs of homozygosity in the Italian goat breeds: impact of management practices in low-input systems
Additional file 2: Figure S2. Manhattan plots representing the signals of signatures of selection in the two population groups (CSD and NRD), of the ��ROH, and averaged FST. CSD = Central-southern population group; NRD = Northern population group.
MOESM10 of Conservation status and historical relatedness of Italian cattle breeds
Additional file 10: Figure S6. Scatter plot of correlations between genetic differentiation (FST) and geographical distances for all breeds.
MOESM4 of Conservation status and historical relatedness of Italian cattle breeds
Additional file 4: Table S2. Pearson correlation coefficients between genetic diversity indices. Observed (Ho) and expected (He) heterozygosity, average minor allele frequency (MAF), inbreeding coefficient (FHOM), contemporary effective population size (cNe), mean ROH-based inbreeding coefficient (FROH>4Mb) and recent and historical Ne estimated 13 (Ne13), 20 (Ne_20 and 80 (Ne_80) generations ago. (* p- valueâ
MOESM7 of Conservation status and historical relatedness of Italian cattle breeds
Additional file 7: Figure S4. Model-based clustering of the estimated membership fractions of individuals from the 32 breeds analyzed in each of the K inferred clusters revealed by the ADMIXTURE software (Kâ =â 12, 16, 20, 28, 32). For a full definition of breeds see Table S1 (see Additional file 2: Table S1).
Additional file 2: of Whole mitochondrial genomes unveil the impact of domestication on goat matrilineal variability
Table S5. Goat haplogroup frequencies based on modern and ancient control-region mtDNA data from this study and downloaded from GenBanka. Table S6. Diagnostic mutational motifs of goat mtDNA haplogroups and sub-haplogroups. Table S7. A comparison of the phylogeographic features of goat, taurine and horse mtDNA haplogroups identified by analyzing domestic breeds from Eurasia. Table S8. Oligonucleotides used to amplify and to sequence (Sanger method) the goat mitochondrial genome. (PDF 652Â kb)
Additional file 1 of Runs of homozygosity in the Italian goat breeds: impact of management practices in low-input systems
Additional file 1: Figure S1. Geographic distribution (a), phylogeny tree (b), and multidimensional scaling analysis (c) of all the Italian goat breeds included in the study.
MOESM8 of Conservation status and historical relatedness of Italian cattle breeds
Additional file 8: Figure S5. Cross-validation errors of admixture analysis at different K values.
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Additional file 12: Table S5. Results of the f4 test.
MOESM11 of Conservation status and historical relatedness of Italian cattle breeds
Additional file 11: Table S4. Results of the f3 test.
Data from: New insights on water buffalo genomic diversity and post-domestication migration routes from medium density SNP chip data
The domestic water buffalo is native to the Asian continent but through historical migrations and recent importations, nowadays has a worldwide distribution. The two types of water buffalo, i.e., river and swamp, display distinct morphological and behavioral traits, different karyotypes and also have different purposes and geographical distributions. River buffaloes from Pakistan, Iran, Turkey, Egypt, Romania, Bulgaria, Italy, Mozambique, Brazil and Colombia, and swamp buffaloes from China, Thailand, Philippines, Indonesia and Brazil were genotyped with a species-specific medium-density 90K SNP panel. We estimated the levels of molecular diversity and described population structure, which r…
Additional file 3 of Runs of homozygosity in the Italian goat breeds: impact of management practices in low-input systems
Additional file 3: Table S1. List of the genes identified by the analyses of the signatures of selection: top 1% homozygosity score in CSD and NRD groups, ��ROH, and averaged FST. CSD = Central-southern population group; NRD = Northern population group.
Additional file 1: of Whole mitochondrial genomes unveil the impact of domestication on goat matrilineal variability
Table S1. Sources for the 758 goat control-region sequences. Table S2. Control-region haplotypes and haplogroup classification of the 758 mtDNA sequences from Capra aegagrus (n = 19) and Capra hircus (n = 739). Table S3. Partial coding-region haplotypes and haplogroup classification of two bezoar mtDNAs. Table S4. Source and haplogroup affiliation of the goat complete mtDNA sequences. Figure S1. Nucleotide diversity and total number of substitutions along the entire mtDNA. Figure S2. A putative most parsimonious tree of 84 complete mtDNA sequences from goats. (XLSX 1268 kb)
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Additional file 5: Figure S2. Relationship between the number of ROH and the length of the genome (Mb) covered by ROH per individual.
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Additional file 9: Table S3. Pairwise FST values between cattle populations.