Runs of homozygosity and distribution of functional variants in cattle genome

Qianqian Zhang; Bernt Guldbrandtsen; Mirte Bosse; Mogens Sandø Lund; Goutam Sahana

doi:10.1186/s12864-015-1715-x

Runs of homozygosity and distribution of functional variants in cattle genome

Qianqian Zhang, Bernt Guldbrandtsen, Mirte Bosse, Mogens Sandø Lund, Goutam Sahana

Center for Quantitative Genetics and Genomics

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

147 Citations (Scopus)

259 Downloads (Pure)

Abstract

Background

Recent developments in sequencing technology have facilitated widespread investigations of genomic variants, including continuous stretches of homozygous genomic regions. For cattle, a large proportion of these runs of homozygosity (ROH) are likely the result of inbreeding due to the accumulation of elite alleles from long-term selective breeding programs. In the present study, ROH were characterized in four cattle breeds with whole genome sequence data and the distribution of predicted functional variants was detected in ROH regions and across different ROH length classes

Results

On average, 19.5 % of the genome was located in ROH across four cattle breeds. There were an average of 715.5 ROH per genome with an average size of ~750 kbp, ranging from 10 (minimum size considered) to 49,290 kbp. There was a significant correlation between shared short ROH regions and regions putatively under selection (p < 0.001). By investigating the relationship between ROH and the predicted deleterious and non-deleterious variants, we gained insight into the distribution of functional variation in inbred (ROH) regions. Predicted deleterious variants were more enriched in ROH regions than predicted non-deleterious variants, which is consistent with observations in the human genome. We also found that increased enrichment of deleterious variants was significantly higher in short (<100 kbp) and medium (0.1 to 3 Mbp) ROH regions compared with long (>3 Mbp) ROH regions (P < 0.001), which is different than what has been observed in the human genome.

Conclusions

This study illustrates the distribution of ROH and functional variants within ROH in cattle populations. These patterns are different from those in the human genome but consistent with the natural history of cattle populations, which is confirmed by the significant correlation between shared short ROH regions and regions putatively under selection. These findings contribute to understanding the effects of inbreeding and probably selection in shaping the distribution of functional variants in the cattle genome.

Original language	English
Journal	B M C Genomics
Volume	16
Issue	542
Pages (from-to)	1-16
Number of pages	16
ISSN	1471-2164
DOIs	https://doi.org/10.1186/s12864-015-1715-x
Publication status	Published - 22 Jul 2015

Access to Document

10.1186/s12864-015-1715-x

Open_access_articleFinal published version, 1.73 MB

GenSAP : GenSAP - Center for Genomic Selection in Animal and Plants
Lund, M. S. (Project manager), Sørensen, P. (Project manager), Janss, L. (Project manager), Sørensen, A. C. (Project manager), Dybdahl Pedersen, L. (Project coordinator), Jensen, J. (Participant), Christensen, O. F. (Participant), Guldbrandtsen, B. (Participant), Asp, T. (Participant), Bendixen, C. (Participant), Su, G. (Participant), Madsen, P. (Participant), Brøndum, R. F. (Participant), Rasmussen, S. K. (Participant), Nielsen, K. L. (Participant), Goddard, M. (Participant), Meuwissen, T. (Participant), Mackay, T. (Participant), Boichard, D. (Participant), Zhang, Q. (Participant) & Gianola, D. (Participant)
Det Strategiske Forskningsråd, Programkomiteen for Sunhed, fødevarer og velfærd
01/01/2013 → 31/12/2018
Project: Research

Cite this

@article{9d83818b21e940a594df1fa0a716e226,

title = "Runs of homozygosity and distribution of functional variants in cattle genome",

abstract = " BackgroundRecent developments in sequencing technology have facilitated widespread investigations of genomic variants, including continuous stretches of homozygous genomic regions. For cattle, a large proportion of these runs of homozygosity (ROH) are likely the result of inbreeding due to the accumulation of elite alleles from long-term selective breeding programs. In the present study, ROH were characterized in four cattle breeds with whole genome sequence data and the distribution of predicted functional variants was detected in ROH regions and across different ROH length classes Results On average, 19.5 % of the genome was located in ROH across four cattle breeds. There were an average of 715.5 ROH per genome with an average size of ~750 kbp, ranging from 10 (minimum size considered) to 49,290 kbp. There was a significant correlation between shared short ROH regions and regions putatively under selection (p < 0.001). By investigating the relationship between ROH and the predicted deleterious and non-deleterious variants, we gained insight into the distribution of functional variation in inbred (ROH) regions. Predicted deleterious variants were more enriched in ROH regions than predicted non-deleterious variants, which is consistent with observations in the human genome. We also found that increased enrichment of deleterious variants was significantly higher in short (<100 kbp) and medium (0.1 to 3 Mbp) ROH regions compared with long (>3 Mbp) ROH regions (P < 0.001), which is different than what has been observed in the human genome. Conclusions This study illustrates the distribution of ROH and functional variants within ROH in cattle populations. These patterns are different from those in the human genome but consistent with the natural history of cattle populations, which is confirmed by the significant correlation between shared short ROH regions and regions putatively under selection. These findings contribute to understanding the effects of inbreeding and probably selection in shaping the distribution of functional variants in the cattle genome. ",

author = "Qianqian Zhang and Bernt Guldbrandtsen and Mirte Bosse and Lund, {Mogens Sand{\o}} and Goutam Sahana",

year = "2015",

month = jul,

day = "22",

doi = "10.1186/s12864-015-1715-x",

language = "English",

volume = "16",

pages = "1--16",

journal = "B M C Genomics",

issn = "1471-2164",

publisher = "BioMed Central",

number = "542",

}

TY - JOUR

T1 - Runs of homozygosity and distribution of functional variants in cattle genome

AU - Zhang, Qianqian

AU - Guldbrandtsen, Bernt

AU - Bosse, Mirte

AU - Lund, Mogens Sandø

AU - Sahana, Goutam

PY - 2015/7/22

Y1 - 2015/7/22

N2 - BackgroundRecent developments in sequencing technology have facilitated widespread investigations of genomic variants, including continuous stretches of homozygous genomic regions. For cattle, a large proportion of these runs of homozygosity (ROH) are likely the result of inbreeding due to the accumulation of elite alleles from long-term selective breeding programs. In the present study, ROH were characterized in four cattle breeds with whole genome sequence data and the distribution of predicted functional variants was detected in ROH regions and across different ROH length classes Results On average, 19.5 % of the genome was located in ROH across four cattle breeds. There were an average of 715.5 ROH per genome with an average size of ~750 kbp, ranging from 10 (minimum size considered) to 49,290 kbp. There was a significant correlation between shared short ROH regions and regions putatively under selection (p < 0.001). By investigating the relationship between ROH and the predicted deleterious and non-deleterious variants, we gained insight into the distribution of functional variation in inbred (ROH) regions. Predicted deleterious variants were more enriched in ROH regions than predicted non-deleterious variants, which is consistent with observations in the human genome. We also found that increased enrichment of deleterious variants was significantly higher in short (<100 kbp) and medium (0.1 to 3 Mbp) ROH regions compared with long (>3 Mbp) ROH regions (P < 0.001), which is different than what has been observed in the human genome. Conclusions This study illustrates the distribution of ROH and functional variants within ROH in cattle populations. These patterns are different from those in the human genome but consistent with the natural history of cattle populations, which is confirmed by the significant correlation between shared short ROH regions and regions putatively under selection. These findings contribute to understanding the effects of inbreeding and probably selection in shaping the distribution of functional variants in the cattle genome.

AB - BackgroundRecent developments in sequencing technology have facilitated widespread investigations of genomic variants, including continuous stretches of homozygous genomic regions. For cattle, a large proportion of these runs of homozygosity (ROH) are likely the result of inbreeding due to the accumulation of elite alleles from long-term selective breeding programs. In the present study, ROH were characterized in four cattle breeds with whole genome sequence data and the distribution of predicted functional variants was detected in ROH regions and across different ROH length classes Results On average, 19.5 % of the genome was located in ROH across four cattle breeds. There were an average of 715.5 ROH per genome with an average size of ~750 kbp, ranging from 10 (minimum size considered) to 49,290 kbp. There was a significant correlation between shared short ROH regions and regions putatively under selection (p < 0.001). By investigating the relationship between ROH and the predicted deleterious and non-deleterious variants, we gained insight into the distribution of functional variation in inbred (ROH) regions. Predicted deleterious variants were more enriched in ROH regions than predicted non-deleterious variants, which is consistent with observations in the human genome. We also found that increased enrichment of deleterious variants was significantly higher in short (<100 kbp) and medium (0.1 to 3 Mbp) ROH regions compared with long (>3 Mbp) ROH regions (P < 0.001), which is different than what has been observed in the human genome. Conclusions This study illustrates the distribution of ROH and functional variants within ROH in cattle populations. These patterns are different from those in the human genome but consistent with the natural history of cattle populations, which is confirmed by the significant correlation between shared short ROH regions and regions putatively under selection. These findings contribute to understanding the effects of inbreeding and probably selection in shaping the distribution of functional variants in the cattle genome.

U2 - 10.1186/s12864-015-1715-x

DO - 10.1186/s12864-015-1715-x

M3 - Journal article

C2 - 26198692

SN - 1471-2164

VL - 16

SP - 1

EP - 16

JO - B M C Genomics

JF - B M C Genomics

IS - 542

ER -

Runs of homozygosity and distribution of functional variants in cattle genome

Abstract

Access to Document

Fingerprint

Projects

GenSAP : GenSAP - Center for Genomic Selection in Animal and Plants

Cite this