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f | 1 | { | f | 1 | { |
2 | "author": "Melzer, Nina", | 2 | "author": "Melzer, Nina", | ||
3 | "author_email": "", | 3 | "author_email": "", | ||
4 | "creator_user_id": "17755db4-395a-4b3b-ac09-e8e3484ca700", | 4 | "creator_user_id": "17755db4-395a-4b3b-ac09-e8e3484ca700", | ||
5 | "doi": "10.22000/80", | 5 | "doi": "10.22000/80", | ||
6 | "doi_date_published": "2018", | 6 | "doi_date_published": "2018", | ||
7 | "doi_publisher": "", | 7 | "doi_publisher": "", | ||
8 | "doi_status": "True", | 8 | "doi_status": "True", | ||
9 | "extra_authors": [ | 9 | "extra_authors": [ | ||
10 | { | 10 | { | ||
11 | "extra_author": "Wittenburg, D\u00f6rte", | 11 | "extra_author": "Wittenburg, D\u00f6rte", | ||
12 | "orcid": "0000-0002-3639-2574" | 12 | "orcid": "0000-0002-3639-2574" | ||
13 | } | 13 | } | ||
14 | ], | 14 | ], | ||
15 | "groups": [], | 15 | "groups": [], | ||
16 | "id": "394909c9-d31f-4391-86c0-72ac4dcd459a", | 16 | "id": "394909c9-d31f-4391-86c0-72ac4dcd459a", | ||
17 | "isopen": false, | 17 | "isopen": false, | ||
18 | "license_id": "CC BY 4.0 Attribution", | 18 | "license_id": "CC BY 4.0 Attribution", | ||
19 | "license_title": "CC BY 4.0 Attribution", | 19 | "license_title": "CC BY 4.0 Attribution", | ||
20 | "metadata_created": "2023-01-12T13:30:35.427118", | 20 | "metadata_created": "2023-01-12T13:30:35.427118", | ||
t | 21 | "metadata_modified": "2023-08-04T09:03:33.062686", | t | 21 | "metadata_modified": "2023-08-04T09:24:19.351517", |
22 | "name": "rdr-doi-10-22000-80", | 22 | "name": "rdr-doi-10-22000-80", | ||
23 | "notes": "Abstract: A simulation study has been conducted to analyse | 23 | "notes": "Abstract: A simulation study has been conducted to analyse | ||
24 | the association between genetic and phenotypic variation in livestock. | 24 | the association between genetic and phenotypic variation in livestock. | ||
25 | Following the density and distribution of single nucleotide | 25 | Following the density and distribution of single nucleotide | ||
26 | polymorphisms (SNPs) on the Illumina BovineSNP50 chip, 52,773 SNPs | 26 | polymorphisms (SNPs) on the Illumina BovineSNP50 chip, 52,773 SNPs | ||
27 | were simulated on the cattle genome of 30 Morgan length. Several | 27 | were simulated on the cattle genome of 30 Morgan length. Several | ||
28 | generations of random mating were executed in which random | 28 | generations of random mating were executed in which random | ||
29 | recombination events according to the genetic distance between SNPs | 29 | recombination events according to the genetic distance between SNPs | ||
30 | and random mutation of SNP alleles were considered. In the most recent | 30 | and random mutation of SNP alleles were considered. In the most recent | ||
31 | generations, 50 sires were mated to 20 dams in order to generate | 31 | generations, 50 sires were mated to 20 dams in order to generate | ||
32 | multiple half-sib families. The data were split into training | 32 | multiple half-sib families. The data were split into training | ||
33 | (n=2,000) and validation/testing set (n=2,000). Twenty-three SNPs were | 33 | (n=2,000) and validation/testing set (n=2,000). Twenty-three SNPs were | ||
34 | randomly preselected to be the causative variants, and additive, | 34 | randomly preselected to be the causative variants, and additive, | ||
35 | dominance and epistatic effects were simulated. Two different traits | 35 | dominance and epistatic effects were simulated. Two different traits | ||
36 | were achieved by adding different residual error terms to the sum of | 36 | were achieved by adding different residual error terms to the sum of | ||
37 | genetic effects, such that the total genetic variation contributed | 37 | genetic effects, such that the total genetic variation contributed | ||
38 | either 30% or 50% to the phenotypic variation. Then, 5,227 SNPs (every | 38 | either 30% or 50% to the phenotypic variation. Then, 5,227 SNPs (every | ||
39 | 10-th SNP including the causative variants) were selected. The | 39 | 10-th SNP including the causative variants) were selected. The | ||
40 | simulation was repeated 100 times. More details can be found in | 40 | simulation was repeated 100 times. More details can be found in | ||
41 | Wittenburg et al. (2011) Including non-additive genetic effects in | 41 | Wittenburg et al. (2011) Including non-additive genetic effects in | ||
42 | Bayesian methods for the prediction of genetic values based on | 42 | Bayesian methods for the prediction of genetic values based on | ||
43 | genome-wide markers. BMC Genetics 12:74, | 43 | genome-wide markers. BMC Genetics 12:74, | ||
44 | https://doi.org/10.1186/1471-2156-12-74", | 44 | https://doi.org/10.1186/1471-2156-12-74", | ||
45 | "num_resources": 0, | 45 | "num_resources": 0, | ||
46 | "num_tags": 5, | 46 | "num_tags": 5, | ||
47 | "orcid": "0000-0002-9586-1588", | 47 | "orcid": "0000-0002-9586-1588", | ||
48 | "organization": { | 48 | "organization": { | ||
49 | "approval_status": "approved", | 49 | "approval_status": "approved", | ||
50 | "created": "2023-01-12T13:30:23.238233", | 50 | "created": "2023-01-12T13:30:23.238233", | ||
51 | "description": "RADAR (Research Data Repository) is a | 51 | "description": "RADAR (Research Data Repository) is a | ||
52 | cross-disciplinary repository for archiving and publishing research | 52 | cross-disciplinary repository for archiving and publishing research | ||
53 | data from completed scientific studies and projects. The focus is on | 53 | data from completed scientific studies and projects. The focus is on | ||
54 | research data from subjects that do not yet have their own | 54 | research data from subjects that do not yet have their own | ||
55 | discipline-specific infrastructures for research data management. ", | 55 | discipline-specific infrastructures for research data management. ", | ||
56 | "id": "013c89a9-383c-4200-8baa-0f78bf1d91f9", | 56 | "id": "013c89a9-383c-4200-8baa-0f78bf1d91f9", | ||
57 | "image_url": "radar-logo.svg", | 57 | "image_url": "radar-logo.svg", | ||
58 | "is_organization": true, | 58 | "is_organization": true, | ||
59 | "name": "radar", | 59 | "name": "radar", | ||
60 | "state": "active", | 60 | "state": "active", | ||
61 | "title": "RADAR", | 61 | "title": "RADAR", | ||
62 | "type": "organization" | 62 | "type": "organization" | ||
63 | }, | 63 | }, | ||
64 | "owner_org": "013c89a9-383c-4200-8baa-0f78bf1d91f9", | 64 | "owner_org": "013c89a9-383c-4200-8baa-0f78bf1d91f9", | ||
65 | "private": false, | 65 | "private": false, | ||
66 | "production_year": "2010", | 66 | "production_year": "2010", | ||
67 | "publication_year": "2018", | 67 | "publication_year": "2018", | ||
68 | "publishers": [ | 68 | "publishers": [ | ||
69 | { | 69 | { | ||
70 | "publisher": "Leibniz Institute for Farm Animal Biology (FBN)" | 70 | "publisher": "Leibniz Institute for Farm Animal Biology (FBN)" | ||
71 | } | 71 | } | ||
72 | ], | 72 | ], | ||
73 | "related_identifiers": [ | 73 | "related_identifiers": [ | ||
74 | { | 74 | { | ||
75 | "identifier": "10.1002/bimj.201700219", | 75 | "identifier": "10.1002/bimj.201700219", | ||
76 | "identifier_type": "DOI", | 76 | "identifier_type": "DOI", | ||
77 | "relation_type": "IsSupplementTo" | 77 | "relation_type": "IsSupplementTo" | ||
78 | } | 78 | } | ||
79 | ], | 79 | ], | ||
80 | "relationships_as_object": [], | 80 | "relationships_as_object": [], | ||
81 | "relationships_as_subject": [], | 81 | "relationships_as_subject": [], | ||
82 | "repository_name": "RADAR (Research Data Repository)", | 82 | "repository_name": "RADAR (Research Data Repository)", | ||
83 | "resource_type": "Dataset - phenotypic and genetic data", | 83 | "resource_type": "Dataset - phenotypic and genetic data", | ||
84 | "resources": [], | 84 | "resources": [], | ||
85 | "services_used_list": "", | 85 | "services_used_list": "", | ||
86 | "source_metadata_created": "2018", | 86 | "source_metadata_created": "2018", | ||
87 | "source_metadata_modified": "", | 87 | "source_metadata_modified": "", | ||
88 | "state": "active", | 88 | "state": "active", | ||
89 | "subject_areas": [ | 89 | "subject_areas": [ | ||
90 | { | 90 | { | ||
91 | "subject_area_additional": "", | 91 | "subject_area_additional": "", | ||
92 | "subject_area_name": "Agriculture" | 92 | "subject_area_name": "Agriculture" | ||
93 | }, | 93 | }, | ||
94 | { | 94 | { | ||
95 | "subject_area_additional": "", | 95 | "subject_area_additional": "", | ||
96 | "subject_area_name": "Biology" | 96 | "subject_area_name": "Biology" | ||
97 | }, | 97 | }, | ||
98 | { | 98 | { | ||
99 | "subject_area_additional": "Genetics", | 99 | "subject_area_additional": "Genetics", | ||
100 | "subject_area_name": "Other" | 100 | "subject_area_name": "Other" | ||
101 | }, | 101 | }, | ||
102 | { | 102 | { | ||
103 | "subject_area_additional": "", | 103 | "subject_area_additional": "", | ||
104 | "subject_area_name": "Life Science" | 104 | "subject_area_name": "Life Science" | ||
105 | } | 105 | } | ||
106 | ], | 106 | ], | ||
107 | "tags": [ | 107 | "tags": [ | ||
108 | { | 108 | { | ||
109 | "display_name": "SNP", | 109 | "display_name": "SNP", | ||
110 | "id": "c9540cd0-ade4-4f17-b346-53f464a95aca", | 110 | "id": "c9540cd0-ade4-4f17-b346-53f464a95aca", | ||
111 | "name": "SNP", | 111 | "name": "SNP", | ||
112 | "state": "active", | 112 | "state": "active", | ||
113 | "vocabulary_id": null | 113 | "vocabulary_id": null | ||
114 | }, | 114 | }, | ||
115 | { | 115 | { | ||
116 | "display_name": "dominance", | 116 | "display_name": "dominance", | ||
117 | "id": "39bbb28b-b873-49d3-8fda-478f66852fa9", | 117 | "id": "39bbb28b-b873-49d3-8fda-478f66852fa9", | ||
118 | "name": "dominance", | 118 | "name": "dominance", | ||
119 | "state": "active", | 119 | "state": "active", | ||
120 | "vocabulary_id": null | 120 | "vocabulary_id": null | ||
121 | }, | 121 | }, | ||
122 | { | 122 | { | ||
123 | "display_name": "epistasis", | 123 | "display_name": "epistasis", | ||
124 | "id": "5750aa1a-431d-476d-97d4-1740158ce128", | 124 | "id": "5750aa1a-431d-476d-97d4-1740158ce128", | ||
125 | "name": "epistasis", | 125 | "name": "epistasis", | ||
126 | "state": "active", | 126 | "state": "active", | ||
127 | "vocabulary_id": null | 127 | "vocabulary_id": null | ||
128 | }, | 128 | }, | ||
129 | { | 129 | { | ||
130 | "display_name": "genetic variation", | 130 | "display_name": "genetic variation", | ||
131 | "id": "12ad04c6-acab-4554-afc1-5441330c572a", | 131 | "id": "12ad04c6-acab-4554-afc1-5441330c572a", | ||
132 | "name": "genetic variation", | 132 | "name": "genetic variation", | ||
133 | "state": "active", | 133 | "state": "active", | ||
134 | "vocabulary_id": null | 134 | "vocabulary_id": null | ||
135 | }, | 135 | }, | ||
136 | { | 136 | { | ||
137 | "display_name": "recombination", | 137 | "display_name": "recombination", | ||
138 | "id": "30f52613-36f9-44fa-8e3d-c10c466a4408", | 138 | "id": "30f52613-36f9-44fa-8e3d-c10c466a4408", | ||
139 | "name": "recombination", | 139 | "name": "recombination", | ||
140 | "state": "active", | 140 | "state": "active", | ||
141 | "vocabulary_id": null | 141 | "vocabulary_id": null | ||
142 | } | 142 | } | ||
143 | ], | 143 | ], | ||
144 | "title": "Supplementary data to publication \u201can approximate | 144 | "title": "Supplementary data to publication \u201can approximate | ||
145 | bayesian significance test for genomic evaluations\u201d (biom j)", | 145 | bayesian significance test for genomic evaluations\u201d (biom j)", | ||
146 | "type": "vdataset", | 146 | "type": "vdataset", | ||
147 | "url": "https://doi.org/10.22000/80" | 147 | "url": "https://doi.org/10.22000/80" | ||
148 | } | 148 | } |