A 44-kb deleted-type copy number variation is associated with decreasing complement component activity and calf mortality in Japanese Black cattle

A 44-kb deleted-type copy number variation is associated with decreasing complement component activity and calf mortality in Japanese Black cattle

Abstract Background Calf mortality generally occurs in calves prior to weaning, which is a serious problem in cattle breeding. Several causative variants of monogenic Mendelian disorders in calf mortality have been identified, whereas genetic factors affecting the susceptibility of calves to death a...

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Main Authors: Shinji Sasaki, Youko Miki, Takayuki Ibi, Hiroyuki Wakaguri, Yuichi Yoshida, Yoshikazu Sugimoto, Yutaka Suzuki
Format: Article
Language:English
Published: BMC 2021-02-01
Series:BMC Genomics
Subjects:
Postnatal mortality
Copy number variation
Complement
Beef cattle
Online Access:https://doi.org/10.1186/s12864-021-07415-6
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spelling doaj-a3edb92915544aedb78ada6dae3d6b172021-02-07T12:23:14ZengBMCBMC Genomics1471-21642021-02-0122111010.1186/s12864-021-07415-6A 44-kb deleted-type copy number variation is associated with decreasing complement component activity and calf mortality in Japanese Black cattleShinji Sasaki0Youko Miki1Takayuki Ibi2Hiroyuki Wakaguri3Yuichi Yoshida4Yoshikazu Sugimoto5Yutaka Suzuki6University of the Ryukyus, Faculty of AgricultureHokubu Agricultural Technology Institute, Hyogo Prefectural Technology Center for Agriculture, Forest and FisherGraduate School of Environmental and Life Science, Okayama UniversityDepartment of Medical Genome Sciences, and Department of Computational Biology, Graduate School of Frontier Sciences, The University of TokyoHokubu Agricultural Technology Institute, Hyogo Prefectural Technology Center for Agriculture, Forest and FisherShirakawa Institute of Animal Genetics, Japan Livestock Technology AssociationDepartment of Medical Genome Sciences, and Department of Computational Biology, Graduate School of Frontier Sciences, The University of TokyoAbstract Background Calf mortality generally occurs in calves prior to weaning, which is a serious problem in cattle breeding. Several causative variants of monogenic Mendelian disorders in calf mortality have been identified, whereas genetic factors affecting the susceptibility of calves to death are not well known. To identify variants associated with calf mortality in Japanese Black cattle, we evaluated calf mortality as a categorical trait with a threshold model and performed a genome-wide copy number variation (CNV) association study on calf mortality. Results We identified a 44-kb deleted-type CNV ranging from 103,317,687 to 103,361,802 bp on chromosome 5, which was associated with the mortality of 1–180-day-old calves. The CNV harbored C1RL, a pseudogene, and an IncRNA localized in the C1R and C1S gene cluster, which is a component of the classical complement activation pathway for immune complexes for infectious pathogens. The average complement activity in CNVR_221 homozygotes at postnatal day 7 was significantly lower than that of wild-type animals and heterozygotes. The frequency of the risk allele in dead calves suffering from diarrhea and pneumonia and in healthy cows was 0.35 and 0.28, respectively (odds ratio = 2.2, P = 0.016), suggesting that CNVR_221 was associated with the mortality of Japanese Black calves suffering from an infectious disease. Conclusions This study identified a deleted-type CNV associated with the mortality of 1–180-day-old calves. The complement activity in CNVR_221 homozygotes was significantly lower than that in heterozygotes and wild type animals. The frequency of the risk allele was higher in dead calves suffering from an infectious disease than in healthy cows. These results suggest that the existence of CNVR_221 in calves could be attributed to a reduction in complement activity, which in turn leads to susceptibility to infections. Thus, the risk allele could serve as a useful marker to reduce the mortality of infected Japanese Black calves.https://doi.org/10.1186/s12864-021-07415-6Postnatal mortalityCopy number variationComplementBeef cattle
collection DOAJ
language English
format Article
sources DOAJ
author Shinji Sasaki
Youko Miki
Takayuki Ibi
Hiroyuki Wakaguri
Yuichi Yoshida
Yoshikazu Sugimoto
Yutaka Suzuki
spellingShingle Shinji Sasaki
Youko Miki
Takayuki Ibi
Hiroyuki Wakaguri
Yuichi Yoshida
Yoshikazu Sugimoto
Yutaka Suzuki
A 44-kb deleted-type copy number variation is associated with decreasing complement component activity and calf mortality in Japanese Black cattle
BMC Genomics
Postnatal mortality
Copy number variation
Complement
Beef cattle
author_facet Shinji Sasaki
Youko Miki
Takayuki Ibi
Hiroyuki Wakaguri
Yuichi Yoshida
Yoshikazu Sugimoto
Yutaka Suzuki
author_sort Shinji Sasaki
title A 44-kb deleted-type copy number variation is associated with decreasing complement component activity and calf mortality in Japanese Black cattle
title_short A 44-kb deleted-type copy number variation is associated with decreasing complement component activity and calf mortality in Japanese Black cattle
title_full A 44-kb deleted-type copy number variation is associated with decreasing complement component activity and calf mortality in Japanese Black cattle
title_fullStr A 44-kb deleted-type copy number variation is associated with decreasing complement component activity and calf mortality in Japanese Black cattle
title_full_unstemmed A 44-kb deleted-type copy number variation is associated with decreasing complement component activity and calf mortality in Japanese Black cattle
title_sort 44-kb deleted-type copy number variation is associated with decreasing complement component activity and calf mortality in japanese black cattle
publisher BMC
series BMC Genomics
issn 1471-2164
publishDate 2021-02-01
description Abstract Background Calf mortality generally occurs in calves prior to weaning, which is a serious problem in cattle breeding. Several causative variants of monogenic Mendelian disorders in calf mortality have been identified, whereas genetic factors affecting the susceptibility of calves to death are not well known. To identify variants associated with calf mortality in Japanese Black cattle, we evaluated calf mortality as a categorical trait with a threshold model and performed a genome-wide copy number variation (CNV) association study on calf mortality. Results We identified a 44-kb deleted-type CNV ranging from 103,317,687 to 103,361,802 bp on chromosome 5, which was associated with the mortality of 1–180-day-old calves. The CNV harbored C1RL, a pseudogene, and an IncRNA localized in the C1R and C1S gene cluster, which is a component of the classical complement activation pathway for immune complexes for infectious pathogens. The average complement activity in CNVR_221 homozygotes at postnatal day 7 was significantly lower than that of wild-type animals and heterozygotes. The frequency of the risk allele in dead calves suffering from diarrhea and pneumonia and in healthy cows was 0.35 and 0.28, respectively (odds ratio = 2.2, P = 0.016), suggesting that CNVR_221 was associated with the mortality of Japanese Black calves suffering from an infectious disease. Conclusions This study identified a deleted-type CNV associated with the mortality of 1–180-day-old calves. The complement activity in CNVR_221 homozygotes was significantly lower than that in heterozygotes and wild type animals. The frequency of the risk allele was higher in dead calves suffering from an infectious disease than in healthy cows. These results suggest that the existence of CNVR_221 in calves could be attributed to a reduction in complement activity, which in turn leads to susceptibility to infections. Thus, the risk allele could serve as a useful marker to reduce the mortality of infected Japanese Black calves.
topic Postnatal mortality
Copy number variation
Complement
Beef cattle
url https://doi.org/10.1186/s12864-021-07415-6
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