Your search keyword '"Kazuhito Kurogi"' showing total 27 results

1. Genomic and phenotypic selection indices for decreased birth weight, shortening fattening period, and regulating total weight gain in beef cattle

Author

Kenji Togashi, Atsushi Ogino, Toshio Watanabe, Masakazu Shinomiya, Masashi Kinukawa, Kazuhito Kurogi, and Masanobu Nurimoto

Subjects

birth weight, early maturation, growth curve, inbreeding, index, random regression, Zoology, QL1-991

Abstract

Objective This study aimed to develop genomic and phenotypic indices for beef cattle selection that afford progeny with reduced birth weight and fattening period. The indices should also allow regulating total weight gain during the fattening period and avoid marked increases of inbreeding. Methods Whether addition of constraint on total weight gain to constraints on body weight gain at up to four specific time points during the fattening process was effective for the weight gain until the end of the fattening period was examined in two selection indices with the selection trait being a phenotypic or a genomic breeding value random regression coefficient. Results Both indices afforded cattle with desired weight gains at specific time points and desired total weight gains. One cycle of index-based selection made it possible to shorten the fattening period two weeks compared with that before selection while maintaining the same final fattening weight as before selection. The impact of constraining total weight gain was smallest when the number of weight gain constraints at specific time points was three or four. However, constraining total weight gain was necessary to avoid poor total weight gain when the number of weight gain constraints at specific time points was only one or two. Conclusion The developed indices make it possible to regulate total weight gain during the fattening process and to achieve desired weight gains at specific time points. Importantly, the indices bring about genetic improvement without an excessive increase of inbreeding. Thus, we expect that these indices will contribute to sustainable genetic improvement in cattle while maintaining genetic diversity.

Published

2025

2. Development of an index that decreases birth weight, promotes postnatal growth and yet minimizes selection intensity in beef cattle

Author

Kenji Togashi, Toshio Watanabe, Atsushi Ogino, Masakazu Shinomiya, Masashi Kinukawa, Kazuhito Kurogi, and Shohei Toda

Subjects

birth weight, growth curve, index, random regression, selection intensity, Zoology, QL1-991

Abstract

Objective The main goal of our current study was to improve the growth curve of meat animals by decreasing the birth weight while achieving a finishing weight that is the same as that before selection but at younger age. Methods Random regression model was developed to derive various selection indices to achieve desired gains in body weight at target time points throughout the fattening process. We considered absolute and proportional gains at specific ages (in weeks) and for various stages (i.e., early, middle, late) during the fattening process. Results The point gain index was particularly easy to use because breeders can assign a specific age (in weeks) as a time point and model either the actual weight gain desired or a scaled percentage gain in body weight. Conclusion The point gain index we developed can achieve the desired weight gain at any given postnatal week of the growing process and is an easy-to-use and practical option for improving the growth curve.

Published

2024

3. Predicting the rate of inbreeding in populations undergoing four-path selection on genomically enhanced breeding values

Author

Kenji Togashi, Kazunori Adachi, Kazuhito Kurogi, Takanori Yasumori, Toshio Watanabe, Shohei Toda, Satoshi Matsubara, Kiyohide Hirohama, Tsutomu Takahashi, and Shoichi Matsuo

Subjects

equilibrium genetic variances, four-path selection, long-time genetic contribution, rates of inbreeding, selective advantage, Zoology, QL1-991

Abstract

Objective A formula is needed that is practical for current livestock breeding methods and that predicts the approximate rate of inbreeding (ΔF) in populations where selection is performed according to four-path programs (sires to breed sons, sires to breed daughters, dams to breed sons, and dams to breed daughters). The formula widely used to predict inbreeding neglects selection, we need to develop a new formula that can be applied with or without selection. Methods The core of the prediction is to incorporate the long-tern genetic influence of the selected parents in four-selection paths executed as sires to breed sons, sires to breed daughters, dams to breed sons, and dams to breed daughters. The rate of inbreeding was computed as the magnitude that is proportional to the sum of squared long-term genetic contributions of the parents of four-selection paths to the selected offspring. Results We developed a formula to predict the rate of inbreeding in populations undergoing four-path selection on genomically enhanced breeding values and with discrete generations. The new formula can be applied with or without selection. Neglecting the effects of selection led to underestimation of the rate of inbreeding by 40% to 45%. Conclusion The formula we developed here would be highly useful as a practical method for predicting the approximate rate of inbreeding (ΔF) in populations where selection is performed according to four-path programs.

Published

2022

4. Genomic prediction with non-additive effects in beef cattle: stability of variance component and genetic effect estimates against population size

Author

Akio Onogi, Toshio Watanabe, Atsushi Ogino, Kazuhito Kurogi, and Kenji Togashi

Subjects

Epistasis, Dominance, Genomic selection, Mixed model, GBLUP, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Genomic prediction is now an essential technology for genetic improvement in animal and plant breeding. Whereas emphasis has been placed on predicting the breeding values, the prediction of non-additive genetic effects has also been of interest. In this study, we assessed the potential of genomic prediction using non-additive effects for phenotypic prediction in Japanese Black, a beef cattle breed. In addition, we examined the stability of variance component and genetic effect estimates against population size by subsampling with different sample sizes. Results Records of six carcass traits, namely, carcass weight, rib eye area, rib thickness, subcutaneous fat thickness, yield rate and beef marbling score, for 9850 animals were used for analyses. As the non-additive genetic effects, dominance, additive-by-additive, additive-by-dominance and dominance-by-dominance effects were considered. The covariance structures of these genetic effects were defined using genome-wide SNPs. Using single-trait animal models with different combinations of genetic effects, it was found that 12.6–19.5 % of phenotypic variance were occupied by the additive-by-additive variance, whereas little dominance variance was observed. In cross-validation, adding the additive-by-additive effects had little influence on predictive accuracy and bias. Subsampling analyses showed that estimation of the additive-by-additive effects was highly variable when phenotypes were not available. On the other hand, the estimates of the additive-by-additive variance components were less affected by reduction of the population size. Conclusions The six carcass traits of Japanese Black cattle showed moderate or relatively high levels of additive-by-additive variance components, although incorporating the additive-by-additive effects did not improve the predictive accuracy. Subsampling analysis suggested that estimation of the additive-by-additive effects was highly reliant on the phenotypic values of the animals to be estimated, as supported by low off-diagonal values of the relationship matrix. On the other hand, estimates of the additive-by-additive variance components were relatively stable against reduction of the population size compared with the estimates of the corresponding genetic effects.

Published

2021

5. Identification of deleterious recessive haplotypes and candidate deleterious recessive mutations in Japanese Black cattle

Author

Shinji Sasaki, Toshio Watanabe, Takayuki Ibi, Kiyotoshi Hasegawa, Yoichi Sakamoto, Shunsuke Moriwaki, Kazuhito Kurogi, Atsushi Ogino, Takanori Yasumori, Hiroyuki Wakaguri, Eiji Muraki, Youko Miki, Yuichi Yoshida, Yoshinobu Inoue, Ichiro Tabuchi, Ken Iwao, Taichi Arishima, Keisuke Kawashima, Manabu Watanabe, Sumio Sugano, Yoshikazu Sugimoto, and Yutaka Suzuki

Subjects

Medicine, Science

Abstract

Abstract Intensive use of a few elite sires has increased the risk of the manifestation of deleterious recessive traits in cattle. Substantial genotyping data gathered using single-nucleotide polymorphism (SNP) arrays have identified the haplotypes with homozygous deficiency, which may compromise survival. We developed Japanese Black cattle haplotypes (JBHs) using SNP array data (4843 individuals) and identified deleterious recessive haplotypes using exome sequencing of 517 sires. We identified seven JBHs with homozygous deficiency. JBH_10 and JBH_17 were associated with the resuming of estrus after artificial insemination, indicating that these haplotypes carried deleterious mutations affecting embryonic survival. The exome data of 517 Japanese Black sires revealed that AC_000165.1:g.85341291C>G of IARS in JBH_8_2, AC_000174.1:g.74743512G>T of CDC45 in JBH_17, and a copy variation region (CNVR_27) of CLDN16 in JBH_1_1 and JBH_1_2 were the candidate mutations. A novel variant AC_000174.1:g.74743512G>T of CDC45 in JBH_17 was located in a splicing donor site at a distance of 5 bp, affecting pre-mRNA splicing. Mating between heterozygotes of JBH_17 indicated that homozygotes carrying the risk allele died around the blastocyst stage. Analysis of frequency of the CDC45 risk allele revealed that its carriers were widespread throughout the tested Japanese Black cattle population. Our approach can effectively manage the inheritance of recessive risk alleles in a breeding population.

Published

2021

6. Development of a structural growth curve model that considers the causal effect of initial phenotypes

Author

Akio Onogi, Atsushi Ogino, Ayako Sato, Kazuhito Kurogi, Takanori Yasumori, and Kenji Togashi

Subjects

Animal culture, SF1-1100, Genetics, QH426-470

Abstract

Abstract Background Growth curves have been widely used in genetic analyses to gain insights into the growth characteristics of both animals and plants. However, several questions remain unanswered, including how the initial phenotypes affect growth and what is the duration of any such impact. For beef cattle production in Japan, calves are procured from farms that specialize in reproduction and then moved to other farms where they are fattened to achieve their market/purchase value. However, the causal effect of growth, while calves are on the reproductive farms, on their growth during fattening remains unclear. To investigate this, we developed a model that combines a structural equation with a growth curve model. The causal effect was modeled with B-splines, which allows inference of the effect as a curve. We fitted the proposed structural growth curve model to repeated measures of body weight from a Japanese beef cattle population (n = 3831) to estimate the curve of the causal effect of the calves’ initial weight on their trajectory of growth when they are on fattening farms. Results Maternal and reproduction farm effects explained 26% of the phenotypic variance of initial weight at fattening farms. The structural growth curve model was fitted to remove the effects of these factors in growth curve analysis at fattening farms. The estimated curve of causal effects remained at approximately 0.8 for 200 d after the calves entered the fattening farms, which means that 64% of the phenotypic variance was explained by the initial weight. Then, the effect decreased linearly and disappeared approximately 620 d after entering the fattening farms, which corresponded to an average age of 871.5 d. Conclusions The proposed model is expected to provide more accurate estimates of genetic values for growth patterns because the confounding causal factors such as maternal and reproduction farm effects are removed. Moreover, examination of the inferred curve of the causal effect enabled us to estimate the effect of a calf’s initial weight at arbitrary times during growth, which could provide suitable information for decision-making when shifting the time of slaughter, building models for genetic evaluation, and selecting calves for market.

Published

2019

7. Selection on milk production and conformation traits during the last two decades in Japan

Author

Kenji Togashi, Takefumi Osawa, Kazunori Adachi, Kazuhito Kurogi, Kota Tokunaka, Takanori Yasumori, Tsutomu Takahashi, and Kimihiro Moribe

Subjects

Selection Differentials, Actual Yearly Genetic Gain, Milk Production Traits, Conformation Traits, Animal culture, SF1-1100, Animal biochemistry, QP501-801

Abstract

Objective The purpose of this study was to compare intended and actual yearly genetic gains for milk production and conformation traits and to investigate the simple selection criterion practiced among milk production and conformation traits during the last two decades in Japan. Learning how to utilize the information on intended and actual genetic gains during the last two decades into the genomic era is vital. Methods Genetic superiority for each trait for four paths of selection (sires to breed bulls [SB], sires to breed cows [SC], dams to breed bulls [DB], and dams to breed cows [DC]) was estimated. Actual practiced simple selection criteria were investigated among milk production and conformation traits and relative emphasis on milk production and conformation traits was compared. Results Selection differentials in milk production traits were greater than those of conformation traits in all four paths of selection. Realized yearly genetic gain was less than that intended for milk production traits. Actual annual genetic gain for conformation traits was equivalent to or greater than intended. Retrospective selection weights of milk production and conformation traits were 0.73:0.27 and 0.56:0.44 for intended and realized genetic gains, respectively. Conclusion Selection was aimed more toward increasing genetic gain in milk production than toward conformation traits over the past two decades in Japan. In contrast, actual annual genetic gain for conformation traits was equivalent to or greater than intended. Balanced selection between milk production and conformation traits tended to be favored during actual selection. Each of four paths of selection (SB, SC, DB, and DC) has played an individual and important role. With shortening generation interval in the genomic era, a young sire arises before the completion of sire’s daughters’ milk production records. How to integrate these four paths of selection in the genomic era is vital.

Published

2019

8. Effects of preselection of genotyped animals on reliability and bias of genomic prediction in dairy cattle

Author

Kenji Togashi, Kazunori Adachi, Kazuhito Kurogi, Takanori Yasumori, Kouichi Tokunaka, Atsushi Ogino, Yoshiyuki Miyazaki, Toshio Watanabe, Tsutomu Takahashi, and Kimihiro Moribe

Subjects

Reliability of Selection, Genomic Selection, Reference Population, Dairy Cattle, Animal culture, SF1-1100, Animal biochemistry, QP501-801

Abstract

Objective Models for genomic selection assume that the reference population is an unselected population. However, in practice, genotyped individuals, such as progeny-tested bulls, are highly selected, and the reference population is created after preselection. In dairy cattle, the intensity of selection is higher in males than in females, suggesting that cows can be added to the reference population with less bias and loss of accuracy. The objective is to develop formulas applied to any genomic prediction studies or practice with preselected animals as reference population. Methods We developed formulas for calculating the reliability and bias of genomically enhanced breeding values (GEBV) in the reference population where individuals are preselected on estimated breeding values. Based on the formulas presented, deterministic simulation was conducted by varying heritability, preselection percentage, and the reference population size. Results The number of bulls equal to a cow regarding the reliability of GEBV was expressed through a simple formula for the reference population consisting of preselected animals. The bull population was vastly superior to the cow population regarding the reliability of GEBV for low-heritability traits. However, the superiority of reliability from the bull reference population over the cow population decreased as heritability increased. Bias was greater for bulls than cows. Bias and reduction in reliability of GEBV due to preselection was alleviated by expanding reference population. Conclusion Cows are easier in expanding reference population size compared with bulls and alleviate bias and reduction in reliability of GEBV of bulls which are highly preselected than cows by expanding the cow reference population.

Published

2019

9. Effects of selection index coefficients that ignore reliability on economic weights and selection responses during practical selection

Author

Kenji Togashi, Kazunori Adachi, Takanori Yasumori, Kazuhito Kurogi, Takayoshi Nozaki, Akio Onogi, Yamato Atagi, and Tsutomu Takahashi

Subjects

Economic Weight, Selection Index, Selection Responses, Quantitative Genetics, Cattle, Animal culture, SF1-1100, Animal biochemistry, QP501-801

Abstract

Objective In practical breeding, selection is often performed by ignoring the accuracy of evaluations and applying economic weights directly to the selection index coefficients of genetically standardized traits. The denominator of the standardized component trait of estimated genetic evaluations in practical selection varies with its reliability. Whereas theoretical methods for calculating the selection index coefficients of genetically standardized traits account for this variation, practical selection ignores reliability and assumes that it is equal to unity for each trait. The purpose of this study was to clarify the effects of ignoring the accuracy of the standardized component trait in selection criteria on selection responses and economic weights in retrospect. Methods Theoretical methods were presented accounting for reliability of estimated genetic evaluations for the selection index composed of genetically standardized traits. Results Selection responses and economic weights in retrospect resulting from practical selection were greater than those resulting from theoretical selection accounting for reliability when the accuracy of the estimated breeding value (EBV) or genomically enhanced breeding value (GEBV) was lower than those of the other traits in the index, but the opposite occurred when the accuracy of the EBV or GEBV was greater than those of the other traits. This trend was more conspicuous for traits with low economic weights than for those with high weights. Conclusion Failure of the practical index to account for reliability yielded economic weights in retrospect that differed from those obtained with the theoretical index. Our results indicated that practical indices that ignore reliability delay genetic improvement. Therefore, selection practices need to account for reliability, especially when the reliabilities of the traits included in the index vary widely.

Published

2018

10. Genomic dissection of repeatability considering additive and nonadditive genetic effects for semen production traits in beef and dairy bulls

Author

Rintaro Nagai, Masashi Kinukawa, Toshio Watanabe, Atsushi Ogino, Kazuhito Kurogi, Kazunori Adachi, Masahiro Satoh, and Yoshinobu Uemoto

Subjects

Male, Genome, Phenotype, Semen, Genetics, Sperm Motility, Animals, Animal Science and Zoology, Cattle, General Medicine, Genomics, Food Science

Abstract

The low heritability and moderate repeatability of semen production traits in beef and dairy bulls suggest that nonadditive genetic effects, such as dominance and epistatic effects, play an important role in semen production and should therefore be considered in genetic improvement programs. In this study, the repeatability of semen production traits in Japanese Black bulls (JB) as beef bulls and Holstein bulls (HOL) as dairy bulls was evaluated by considering additive and nonadditive genetic effects using the Illumina BovineSNP50 BeadChip. We also evaluated the advantage of using more complete models that include nonadditive genetic effects by comparing the rank of genotyped animals and the phenotype prediction ability of each model. In total, 65,463 records for 615 genotyped JB and 48,653 records for 845 genotyped HOL were used to estimate additive and nonadditive (dominance and epistatic) variance components for semen volume (VOL), sperm concentration (CON), sperm motility (MOT), MOT after freeze-thawing (aMOT), and sperm number (NUM). In the model including both additive and nonadditive genetic effects, the broad-sense heritability (0.17 to 0.43) was more than twice as high as the narrow-sense heritability (0.04 to 0.11) for all traits and breeds, and the differences between the broad-sense heritability and repeatability were very small for VOL, NUM, and CON in both breeds. A large proportion of permanent environmental variance was explained by epistatic variance. The epistatic variance as a proportion of total phenotypic variance was 0.07 to 0.33 for all traits and breeds. In addition, heterozygosity showed significant positive relationships with NUM, MOT, and aMOT in JB and NUM in HOL, when the heterozygosity rate was included as a covariate. In a comparison of models, the inclusion of nonadditive genetic effects resulted in a re-ranking of the top genotyped bulls for the additive effects. Adjusting for nonadditive genetic effects could be expected to produce a more accurate breeding value, even if the models have similar fitting. However, including nonadditive genetic effects did not improve the ability of any model to predict phenotypic values for any trait or breed compared with the predictive ability of a model that includes only additive effects. Consequently, although nonadditive genetic effects, especially epistatic effects, play an important role in semen production traits, they do not improve prediction accuracy in beef and dairy bulls.Improving reproductive efficiency is a key objective in the beef and dairy cattle industries, and bull fertility is an important determinant of the reproductive performance of cows. The heritability of semen production traits is generally low; however, their repeatability is moderate. This difference between repeatability and heritability suggests that nonadditive genetic effects, such as dominance and epistatic genetic effects, could have an important role in semen production traits in bulls. Here, we estimated repeatability for semen production traits in beef and dairy bulls by considering additive and nonadditive genetic effects. Our results suggest that the contribution of nonadditive genetic effects to differences between repeatability and heritability was very high. Nonadditive genetic effects, especially epistatic effects, played important roles in semen production traits in beef and dairy bulls. However, we found that the inclusion of nonadditive genetic effects in a predictive model does not improve phenotypic prediction accuracy; further studies are needed to improve the predictive ability when using nonadditive genetic effects.

Published

2022

11. Predicting the rate of inbreeding in populations undergoing four-path selection on genomically enhanced breeding values

Author

Kenji Togashi, Kazunori Adachi, Kazuhito Kurogi, Takanori Yasumori, Toshio Watanabe, Shohei Toda, Satoshi Matsubara, Kiyohide Hirohama, Tsutomu Takahashi, and Shoichi Matsuo

Subjects

General Veterinary, Physiology, Genetics, Animal Science and Zoology, Food Science

Abstract

Objective: A formula is needed that is practical for current livestock breeding methods and that predicts the approximate rate of inbreeding (∆F) in populations where selection is performed according to four-path programs (sires to breed sons, sires to breed daughters, dams to breed sons, and dams to breed daughters). The formula widely used to predict inbreeding neglects selection, we need to develop a new formula that can be applied with or without selection.Methods: The core of the prediction is to incorporate the long-tern genetic influence of the selected parents in four-selection paths executed as sires to breed sons, sires to breed daughters, dams to breed sons, and dams to breed daughters. The rate of inbreeding was computed as the magnitude that is proportional to the sum of squared long-term genetic contributions of the parents of four-selection paths to the selected offspring.Results: We developed a formula to predict the rate of inbreeding in populations undergoing four-path selection on genomically enhanced breeding values and with discrete generations. The new formula can be applied with or without selection. Neglecting the effects of selection led to underestimation of the rate of inbreeding by 40% to 45%.Conclusion: The formula we developed here would be highly useful as a practical method for predicting the approximate rate of inbreeding (ΔF) in populations where selection is performed according to four-path programs.

Published

2021

12. Effects of preselection of genotyped animals on reliability and bias of genomic prediction in dairy cattle

Author

Toshio Watanabe, Kazunori Adachi, Kenji Togashi, Tsutomu Takahashi, Kimihiro Moribe, Kazuhito Kurogi, Kouichi Tokunaka, Takanori Yasumori, Yoshiyuki Miyazaki, and Atsushi Ogino

Subjects

Population, lcsh:Animal biochemistry, Reliability of Selection, Biology, Article, Statistics, Dairy Cattle, Reference population, education, lcsh:QP501-801, Selection (genetic algorithm), Dairy cattle, Reliability (statistics), lcsh:SF1-1100, education.field_of_study, Reference Population, 0402 animal and dairy science, 04 agricultural and veterinary sciences, Heritability, Animal Breeding and Genetics, 040201 dairy & animal science, Genomic Selection, Unselected population, Animal Science and Zoology, lcsh:Animal culture, Genomic selection, Food Science

Abstract

OBJECTIVE Models for genomic selection assume that the reference population is an unselected population. However, in practice, genotyped individuals, such as progeny-tested bulls, are highly selected, and the reference population is created after preselection. In dairy cattle, the intensity of selection is higher in males than in females, suggesting that cows can be added to the reference population with less bias and loss of accuracy. The objective is to develop formulas applied to any genomic prediction studies or practice with preselected animals as reference population. METHODS We developed formulas for calculating the reliability and bias of genomically enhanced breeding values (GEBV) in the reference population where individuals are preselected on estimated breeding values. Based on the formulas presented, deterministic simulation was conducted by varying heritability, preselection percentage, and the reference population size. RESULTS The number of bulls equal to a cow regarding the reliability of GEBV was expressed through a simple formula for the reference population consisting of preselected animals. The bull population was vastly superior to the cow population regarding the reliability of GEBV for low-heritability traits. However, the superiority of reliability from the bull reference population over the cow population decreased as heritability increased. Bias was greater for bulls than cows. Bias and reduction in reliability of GEBV due to preselection was alleviated by expanding reference population. CONCLUSION Cows are easier in expanding reference population size compared with bulls and alleviate bias and reduction in reliability of GEBV of bulls which are highly preselected than cows by expanding the cow reference population.

Published

2018

13. Evaluation of feed efficiency traits for genetic improvement in Japanese Black cattle

Author

Masahiro Satoh, Masayuki Takeda, Takanori Yasumori, Keiichi Inoue, Yoshinobu Uemoto, Takayoshi Nozaki, Kazuhito Kurogi, and Atsushi Ogino

Subjects

Male, 0301 basic medicine, Progeny testing, Gompertz function, Biology, Genetic correlation, Feed conversion ratio, Eating, 03 medical and health sciences, Animal science, Genetics, Animals, Body Weight, Japanese Black cattle, Animal Genetics and Genomics, 0402 animal and dairy science, 04 agricultural and veterinary sciences, General Medicine, Growth curve (biology), Heritability, Animal Feed, 040201 dairy & animal science, Phenotype, 030104 developmental biology, Cattle, Animal Science and Zoology, Residual feed intake, Energy Intake, Energy Metabolism, Food Science

Abstract

We evaluated the genetic relationships (1) among feed efficiency traits with different fattening periods, (2) between feed efficiency traits and growth traits, and (3) between feed efficiency traits and carcass traits, to determine the influence of genetic factors on feed efficiency traits. In total, 4,578 Japanese Black cattle from a progeny testing program were used. Residual feed intake (RFI), residual BW gain (RG), and residual intake and BW gain (RIG) were defined as feed efficiency traits, and were measured for the first half (approximately 9 to 15 months of age), latter half (approximately 15 to 21 months of age), and total period of fattening (approximately 9 to 21 months of age). A single-trait animal model for estimating heritability and a two-trait animal model for estimating genetic and phenotypic correlations were used. The heritability estimates for RFI, RG, and RIG were different in each fattening period, ranging from 0.36 to 0.46, 0.19 to 0.28, and 0.28 to 0.34, respectively, and the heritability estimates for the total fattening period were greater than those for the first and latter halves separately. RIG showed the greatest preferred genetic correlation, with a greater feed conversion ratio than the other feed efficiency traits (ranging from -0.84 to -0.96). RG in the first and latter halves of the fattening period had different genetic correlations with the growth starting point (0.82 and -0.06, respectively) and maturity rate (0.49 and -0.51, respectively) of the Gompertz growth curve parameters, and is strongly dependent on the different fattening periods. Feed efficiency traits in different fattening periods had low genetic correlations with the carcass traits (from -0.05 to 0.19 for RFI; from 0.02 to 0.31 for RG; and from -0.11 to 0.20 for RIG). This study indicated the possibility for genetic improvement through the selection of high-RIG animals to decrease feed intake and increase BW gain without any unfavorable correlated responses affecting mature (asymptotic) weight and carcass grade.

Published

2018

14. Effects of selection index coefficients that ignore reliability on economic weights and selection responses during practical selection

Author

Takayoshi Nozaki, Kazuhito Kurogi, Kazunori Adachi, Yamato Atagi, Takanori Yasumori, Akio Onogi, Tsutomu Takahashi, and Kenji Togashi

Subjects

0301 basic medicine, Index (economics), Selection Responses, lcsh:Animal biochemistry, Selection Index, Article, Quantitative Genetics, 03 medical and health sciences, Economic Weight, Statistics, lcsh:QP501-801, Selection (genetic algorithm), Reliability (statistics), Mathematics, lcsh:SF1-1100, 0402 animal and dairy science, 04 agricultural and veterinary sciences, Quantitative genetics, Animal Breeding and Genetics, 040201 dairy & animal science, 030104 developmental biology, Theoretical methods, Trait, Animal Science and Zoology, Cattle, lcsh:Animal culture, Food Science

Abstract

OBJECTIVE In practical breeding, selection is often performed by ignoring the accuracy of evaluations and applying economic weights directly to the selection index coefficients of genetically standardized traits. The denominator of the standardized component trait of estimated genetic evaluations in practical selection varies with its reliability. Whereas theoretical methods for calculating the selection index coefficients of genetically standardized traits account for this variation, practical selection ignores reliability and assumes that it is equal to unity for each trait. The purpose of this study was to clarify the effects of ignoring the accuracy of the standardized component trait in selection criteria on selection responses and economic weights in retrospect. METHODS Theoretical methods were presented accounting for reliability of estimated genetic evaluations for the selection index composed of genetically standardized traits. RESULTS Selection responses and economic weights in retrospect resulting from practical selection were greater than those resulting from theoretical selection accounting for reliability when the accuracy of the estimated breeding value (EBV) or genomically enhanced breeding value (GEBV) was lower than those of the other traits in the index, but the opposite occurred when the accuracy of the EBV or GEBV was greater than those of the other traits. This trend was more conspicuous for traits with low economic weights than for those with high weights. CONCLUSION Failure of the practical index to account for reliability yielded economic weights in retrospect that differed from those obtained with the theoretical index. Our results indicated that practical indices that ignore reliability delay genetic improvement. Therefore, selection practices need to account for reliability, especially when the reliabilities of the traits included in the index vary widely.

Published

2018

15. A genetic analysis of meat compositions in Japanese Black cattle: Genetic parameters and sex influence

Author

T. Nozaki, Akio Onogi, M. Kobayashi, S. Sasaki, Kenji Togashi, A. Ogino, Takanori Yasumori, Kazuhito Kurogi, and Hiroyoshi Iwata

Subjects

Male, 0301 basic medicine, Meat, Breeding, Biology, Genetic analysis, 03 medical and health sciences, Quantitative Trait, Heritable, Sex Factors, Animal science, Food Animals, Food Quality, Animals, Amino Acids, Sugar, Genetic Association Studies, Genetics, chemistry.chemical_classification, Fatty Acids, 0402 animal and dairy science, Fatty acid, 04 agricultural and veterinary sciences, General Medicine, Heritability, 040201 dairy & animal science, Breed, Genetic architecture, Sexual dimorphism, Phenotype, 030104 developmental biology, chemistry, Cattle, Female, Animal Science and Zoology, Peptides, Sugars, Food quality

Abstract

Meat composition in beef is related to eating quality and food functionality. Genetic parameters for several meat compositions including free amino acid, peptide and sugar, however, remain poorly described. In this study, we estimated genetic parameters for 51 meat components, including free amino acids, peptides, sugars and fatty acid compositions, and two carcase traits in 1,354 heifers and 1,797 steers of Japanese Black cattle. Heritability estimates were generally equivalent to or moderately greater than those in previous studies of this breed. Genetic correlations between free amino acids, peptides and sugars and carcase traits were often negative, suggesting a trade-off between traits. Using two-trait animal models that treat records from the two sexes as different traits, we estimated sex-specific heritabilities and cross-sex genetic correlations which indicate the sex differences in genetic architecture. In these analyses, 12 traits showed significant heritability differences between sexes and cross-sex genetic correlations occasionally deviated from unity. These results could be used to inform future breeding schemes and investigations of the genetic architecture of meat compositions in beef.

Published

2017

16. Genetic analysis of semen production traits of Japanese Black and Holstein bulls: genome-wide marker-based estimation of genetic parameters and environmental effect trends1

Author

Hiroyoshi Iwata, K. Adachi, K. Uchiyama, M. Kinukawa, Kenji Togashi, Takanori Yasumori, A. Ogino, Kazuhito Kurogi, Yamato Atagi, and Akio Onogi

Subjects

0301 basic medicine, endocrine system, media_common.quotation_subject, Semen, Biology, Best linear unbiased prediction, Genetic analysis, 03 medical and health sciences, fluids and secretions, Animal science, Genetics, Sperm motility, Selection (genetic algorithm), media_common, urogenital system, business.industry, 0402 animal and dairy science, 04 agricultural and veterinary sciences, General Medicine, 040201 dairy & animal science, Sperm, Biotechnology, 030104 developmental biology, Animal Science and Zoology, Reproduction, business, Inbreeding, Food Science

Abstract

The semen production traits of bulls from 2 major cattle breeds in Japan, Holstein and Japanese Black, were analyzed comprehensively using genome-wide markers. Weaker genetic correlations were observed between the 2 age groups (1 to 3 yr old and 4 to 6 yr old) regarding semen volume and sperm motility compared with those observed for sperm number and motility after freeze-thawing. The preselection of collected semen for freezing had a limited effect. Given the increasing importance of bull proofs at a young age because of genomic selection and the results from preliminary studies, we used a multiple-trait model that included motility after freeze-thawing with records collected at young ages. Based on variations in contemporary group effects, accounting for both seasonal and management factors, Holstein bulls may be more sensitive than Japanese Black bulls to seasonal environmental variations; however, the seasonal variations of contemporary group effects were smaller than those of overall contemporary group effects. The improvement of motilities, recorded immediately after collection and freeze-thawing, was observed in recent years; thus, good management and better freeze-thawing protocol may alleviate seasonal phenotypic differences. The detrimental effects of inbreeding were observed in all traits of both breeds; accordingly, the selection of candidate bulls with high inbreeding coefficients should be avoided per general recommendations. Semen production traits have never been considered for bull selection. However, negative genetic trends were observed. The magnitudes of the estimated h were comparable to those of other economically important traits. A single-step genomic BLUP will provide more accurate predictions of breeding values compared with BLUP; thus, marker genotype information is useful for estimating the genetic merits of bulls for semen production traits. The selection of these traits would improve sperm viability, a component related to breeding success, and alleviate negative genetic trends.

Published

2017

17. Genetic and genomic analyses for predicted methane-related traits in Japanese Black steers

Author

Masahiro Satoh, Atushi Ogino, Kazuhito Kurogi, Masayuki Takeda, Fuminori Terada, Yoshinobu Uemoto, and Shinichro Ogawa

Subjects

Male, Candidate gene, Genome-wide association study, Single-nucleotide polymorphism, Quantitative trait locus, Biology, Genome, Polymorphism, Single Nucleotide, Japanese Black cattle, predicted methane‐related traits, 03 medical and health sciences, Quantitative Trait, Heritable, Genetic variation, genetic parameters, SNP, Animals, 030304 developmental biology, genome‐wide association study, Genetics, 0303 health sciences, 0402 animal and dairy science, 04 agricultural and veterinary sciences, General Medicine, Original Articles, 040201 dairy & animal science, Phenotype, Diet, Animal Nutritional Physiological Phenomena, Cattle, Original Article, General Agricultural and Biological Sciences, Methane, Genome-Wide Association Study

Abstract

The objectives of this study were to estimate genetic parameters and to perform a genome‐wide association study (GWAS) for predicted methane‐related traits in Japanese Black steers. The methane production and yield traits were predicted using on‐farm measurable traits, such as dry matter intake and average daily gain. A total of 4,578 Japanese Black steers, which were progenies of 362 sires genotyped with imputed 551,995 single nucleotide polymorphisms (SNPs), had phenotypes of predicted methane‐related traits during the total fattening period (52 weeks). For the estimation of genetic parameters, the estimated heritabilities were moderate (ranged from 0.57 to 0.60). In addition, the estimated genetic correlations of methane production traits with most of carcass traits and feed‐efficiency traits were unfavorable, but those of methane yield traits were favorable or low. For the GWAS, no genome‐wide significant SNP was detected, but a total of four quantitative trait locus (QTL) regions that explained more than 5.0% of genetic variance were localized on the genome, and some candidate genes associated with growth and feed‐efficiency traits were located on the regions. Our results suggest that the predicted methane‐related traits are heritable and some QTL regions for the traits are localized on the genome in Japanese Black steers.

Published

2020

18. Genome‐wide association study and genomic evaluation of feed efficiency traits in Japanese Black cattle using single‐step genomic best linear unbiased prediction method

Author

Yoshinobu Uemoto, Masahiro Satoh, Masayuki Takeda, Kazuhito Kurogi, Keiichi Inoue, Takanori Yasumori, Atushi Ogino, and Takayoshi Nozaki

Subjects

Candidate gene, Population, Genome-wide association study, Computational biology, Biology, Best linear unbiased prediction, Phosphatidylinositols, Weight Gain, Feed conversion ratio, Eating, 03 medical and health sciences, Quantitative Trait, Heritable, Animals, Genetic Testing, education, 030304 developmental biology, Genetic association, 0303 health sciences, education.field_of_study, Genome, 0402 animal and dairy science, 04 agricultural and veterinary sciences, General Medicine, Animal Feed, 040201 dairy & animal science, Genetic architecture, Smell, Animal Nutritional Physiological Phenomena, Cattle, Residual feed intake, General Agricultural and Biological Sciences, Genome-Wide Association Study, Signal Transduction

Abstract

The objectives of this study were to better understand the genetic architecture and the possibility of genomic evaluation for feed efficiency traits by (i) performing genome-wide association studies (GWAS), and (ii) assessing the accuracy of genomic evaluation for feed efficiency traits, using single-step genomic best linear unbiased prediction (ssGBLUP)-based methods. The analyses were performed in residual feed intake (RFI), residual body weight gain (RG), and residual intake and body weight gain (RIG) during three different fattening periods. The phenotypes from 4,578 Japanese Black steers, which were progenies of 362 progeny-tested bulls and the genotypes from the bulls were used in this study. The results of GWAS showed that a total of 16, 8, and 12 gene ontology terms were related to RFI, RG, and RIG, respectively, and the candidate genes identified in RFI and RG were involved in olfactory transduction and the phosphatidylinositol signaling system, respectively. The realized reliabilities of genomic estimated breeding values were low to moderate in the feed efficiency traits. In conclusion, ssGBLUP-based method can lead to understand some biological functions related to feed efficiency traits, even with small population with genotypes, however, an alternative strategy will be needed to enhance the reliability of genomic evaluation.

Published

2019

19. Asymptotic four-path genomic index selection response with or without accounting for the uncertainty of the predictions

Author

Toshio Watanabe, Kenji Togashi, Tsutomu Takahashi, Syohei Toda, Kazunori Adachi, Kiyohide Hirohama, Masanobu Nurimoto, and Kazuhito Kurogi

Subjects

0301 basic medicine, Index (economics), General Veterinary, 0402 animal and dairy science, 04 agricultural and veterinary sciences, Variance (accounting), 040201 dairy & animal science, Breed, Standard deviation, 03 medical and health sciences, 030104 developmental biology, Genetic gain, Statistics, Path (graph theory), Animal Science and Zoology, Selection (genetic algorithm), Mathematics, Index selection

Abstract

Equations were developed to predict the equilibrium response to the aggregate genotype in units of genetic standard deviation by using selection index composed of GEBVs. A situation was considered in which four-path selection was executed as sires to breed sons, sires to breed daughters, dams to breed sons, and dams to breed daughters. In practice, index selection comprising standardized GEBVs is often used for the aggregate genotype in units of genetic standard deviation in accordance with the standardization of the true genetic value in the aggregate genotype. Economic weights of the breeding goal in units of genetic standard deviation are used as the coefficients of the standardized GEBVs of the practical index. However, the variance of GEBV necessary to standardize GEBV changes from generation to generation. It meant that economic weights in the breeding goal corresponding to the practical index changed during generations, although relative economic weights in the breeding goal among the component traits should be the same during generations. The practical index assumes GEBVs as estimates with no prediction errors, although GEBVs are estimates with prediction errors, which resulted in overestimation of the selection accuracy of the practical index. The asymptotic genetic gain from the practical index reacted sharply to the uncertainty in GEBVs compared with the theory-based index. Consequently, especially in practical breeding, the correct aggregate genotype in selection index theory associated with the practically used index must be examined and breeding goal should not include a component related to the uncertainty in GEBVs, because economic weights fluctuate during generations in line with the uncertainty in GEBVs.

Published

2020

20. Asymptotic response to four-path selection due to index and single trait selection according to genomically enhanced breeding values

Author

Takanori Yasumori, Togashi Kenji, Tsutomu Takahashi, Kazuhito Kurogi, Shohei Toda, Toshio Watanabe, Kota Tokunaka, and Kazunori Adachi

Subjects

0301 basic medicine, Index (economics), General Veterinary, 0402 animal and dairy science, 04 agricultural and veterinary sciences, Biology, 040201 dairy & animal science, Genetic correlation, Breed, 03 medical and health sciences, 030104 developmental biology, Statistics, Spite, Trait, Animal Science and Zoology, Differential selection, Selection (genetic algorithm), Index selection

Abstract

Formulas were developed for calculating the asymptotic response from index and single trait selection for differential selection among male and female parents and of parents to produce male versus female replacements (four-path programs). The formulas were then used to study the effects on selection response in several scenarios. Index selection based on genomically enhanced breeding value (GEBV) achieved substantial genetic improvement even for low-heritability traits when their relative economic weights are greater than those of the other moderate-heritability index traits in spite of positive or negative genetic correlation between the two index traits. Index selection overwhelmed single trait selection with regard to selection response, particularly when genetic correlation was negative between the two index traits. When the reduction in genetic (co)variance after selection was ignored, the initial genetic response overestimated the asymptotic response and the overestimation was more remarkable for a moderately heritable trait than for a lowly heritable trait. The overestimation for the moderately heritable trait was more conspicuous in single trait selection than in index selection. The underestimation of the initial response during generation 0 due to the index selection was found for the lowly heritable traits when the lowly heritable traits had negative genetic correlation with the other moderately heritable traits and when economic weights of the lowly heritable traits were substantially small as compared to the other moderately heritable traits. The accounting percentage from a selection path from dams to breed sons for the total response per generation increased approximately from 30% to 39% when the selection percentage decreased from 10% to 1%. Applying selection based on GEBV in a selection path from dams to breed sons would make a great contribution to genetic improvement. Equilibrium correlated response to an unselected trait due to index selection became negative when initial genetic correlation during generation 0 between aggregate genotype and an unselected trait was negative. Consequently, we need to construct reference population for all the traits connected with the breeding goal in order to enable the genomic evaluations of all the traits connected with the breeding goal.

Published

2020

21. Whole-genome prediction of fatty acid composition in meat of Japanese Black cattle

Author

Kenji Togashi, Hiroyoshi Iwata, K. Shimizu, A. Ogino, T. Komatsu, Kazuhito Kurogi, Akio Onogi, Takanori Yasumori, and N. Shoji

Subjects

Male, Genome, Meat, Genotype, Models, Genetic, Mean squared prediction error, Japanese Black cattle, Fatty Acids, General Medicine, Best linear unbiased prediction, Biology, Beef cattle, Breeding, Pedigree, Animal science, Phenotype, Quantitative Trait, Heritable, Genetics, Animals, Animal Science and Zoology, Cattle, Female, Fatty acid composition, Genomic selection

Abstract

Because fatty acid composition influences the flavor and texture of meat, controlling it is particularly important for cattle breeds such as the Japanese Black, characterized by high meat quality. We evaluated the predictive ability of single-step genomic best linear unbiased prediction (ssGBLUP) in fatty acid composition of Japanese Black cattle by assessing the composition of seven fatty acids in 3088 cattle, of which 952 had genome-wide marker genotypes. All sires of the genotyped animals were genotyped, but their dams were not. Cross-validation was conducted for the 952 animals. The prediction accuracy was higher with ssGBLUP than with best linear unbiased prediction (BLUP) for all traits, and in an empirical investigation, the gain in accuracy of using ssGBLUP over BLUP increased as the deviations in phenotypic values of the animals increased. In addition, the superior accuracy of ssGBLUP tended to be more evident in animals whose maternal grandsire was genotyped than in other animals, although the effect was small.

Published

2015

22. Genetic and genomic analyses for predicted methane-related traits in Japanese Black steers.

Author

Yoshinobu Uemoto, Masayuki Takeda, Atushi Ogino, Kazuhito Kurogi, Shinichro Ogawa, Masahiro Satoh, and Fuminori Terada

Subjects

SINGLE nucleotide polymorphisms, ANIMAL herds, CATTLE, METHANE

Abstract

The objectives of this study were to estimate genetic parameters and to perform a genome- wide association study (GWAS) for predicted methane-related traits in Japanese Black steers. The methane production and yield traits were predicted using on-farm measurable traits, such as dry matter intake and average daily gain. A total of 4,578 Japanese Black steers, which were progenies of 362 sires genotyped with imputed 551,995 single nucleotide polymorphisms (SNPs), had phenotypes of predicted methane- related traits during the total fattening period (52 weeks). For the estimation of genetic parameters, the estimated heritabilities were moderate (ranged from 0.57 to 0.60). In addition, the estimated genetic correlations of methane production traits with most of carcass traits and feed-efficiency traits were unfavorable, but those of methane yield traits were favorable or low. For the GWAS, no genome-wide significant SNP was detected, but a total of four quantitative trait locus (QTL) regions that explained more than 5.0% of genetic variance were localized on the genome, and some candidate genes associated with growth and feed-efficiency traits were located on the regions. Our results suggest that the predicted methane-related traits are heritable and some QTL regions for the traits are localized on the genome in Japanese Black steers. [ABSTRACT FROM AUTHOR]

Published

2020

23. Genome-wide association study and genomic evaluation of feed efficiency traits in Japanese Black cattle using single-step genomic best linear unbiased prediction method.

Author

Masayuki Takeda, Yoshinobu Uemoto, Keiichi Inoue, Atushi Ogino, Takayoshi Nozaki, Kazuhito Kurogi, Takanori Yasumori, and Masahiro Satoh

Subjects

FORECASTING, WEIGHT gain, CELLULAR signal transduction, CATTLE, BODY weight, PHARMACOGENOMICS

Abstract

The objectives of this study were to better understand the genetic architecture and the possibility of genomic evaluation for feed efficiency traits by (i) performing genome- wide association studies (GWAS), and (ii) assessing the accuracy of genomic evaluation for feed efficiency traits, using single-step genomic best linear unbiased prediction (ssGBLUP)-based methods. The analyses were performed in residual feed intake (RFI), residual body weight gain (RG), and residual intake and body weight gain (RIG) during three different fattening periods. The phenotypes from 4,578 Japanese Black steers, which were progenies of 362 progeny-tested bulls and the genotypes from the bulls were used in this study. The results of GWAS showed that a total of 16, 8, and 12 gene ontology terms were related to RFI, RG, and RIG, respectively, and the candidate genes identified in RFI and RG were involved in olfactory transduction and the phosphatidylinositol signaling system, respectively. The realized reliabilities of genomic estimated breeding values were low to moderate in the feed efficiency traits. In conclusion, ssGBLUP-based method can lead to understand some biological functions related to feed efficiency traits, even with small population with genotypes, however, an alternative strategy will be needed to enhance the reliability of genomic evaluation. [ABSTRACT FROM AUTHOR]

Published

2020

24. Ubiquitylation-independent ER-associated degradation of an AE1 mutant associated with dominant hereditary spherocytosis in cattle

Author

Daisuke Ito, Ichiro Koshino, Mutsumi Inaba, Hirokazu Adachi, Takashi Amano, Kazuhito Kurogi, Satoshi Tamahara, Kenichiro Ono, Mizuki Tomihari, and Nobuto Arashiki

Subjects

Proteasome Endopeptidase Complex, Recombinant Fusion Proteins, Spherocytosis, Spherocytosis, Hereditary, Endoplasmic Reticulum, Cell Line, Hereditary spherocytosis, stomatognathic system, Mutant protein, Anion Exchange Protein 1, Erythrocyte, medicine, Animals, Humans, Ubiquitins, Band 3, Genes, Dominant, biology, Endoplasmic reticulum, Cell Membrane, Cell Biology, medicine.disease, Molecular biology, stomatognathic diseases, Red blood cell, medicine.anatomical_structure, Aggresome, Mutation, biology.protein, Cattle, Congenital hemolytic anemia

Abstract

Various mutations in the AE1 (anion exchanger 1, band 3) gene cause dominant hereditary spherocytosis, a common congenital hemolytic anemia associated with deficiencies of AE1 of different degrees and loss of mutant protein from red blood cell membranes. To determine the mechanisms underlying decreases in AE1 protein levels, we employed K562 and HEK293 cell lines and Xenopus oocytes together with bovine wild-type AE1 and an R664X nonsense mutant responsible for dominant hereditary spherocytosis to analyze protein expression, turnover, and intracellular localization. R664X-mutant protein underwent rapid degradation and caused specifically increased turnover and impaired trafficking to the plasma membrane of the wild-type protein through hetero-oligomer formation in K562 cells. Consistent with those observations, co-expression of mutant and wild-type AE1 reduced anion transport by the wild-type protein in oocytes. Transfection studies in K562 and HEK293 cells revealed that the major pathway mediating degradation of both R664X and wild-type AE1 employed endoplasmic reticulum (ER)-associated degradation through the proteasomal pathway. Proteasomal degradation of R664X protein appeared to be independent of both ubiquitylation and N-glycosylation, and aggresome formation was not observed following proteasome inhibition. These findings indicate that AE1 R664X protein, which is associated with dominant hereditary spherocytosis, has a dominant-negative effect on the expression of wild-type AE1.

Published

2006

25. Genomic prediction in Japanese Black cattle: application of a single-step approach to beef cattle

Author

Kenji Togashi, T. Komatsu, K. Simizu, A. Ogino, Akio Onogi, N. Shoji, Kazuhito Kurogi, Hiroyoshi Iwata, and Takanori Yasumori

Subjects

Genetic Markers, Male, education.field_of_study, Genotype, Models, Genetic, Marbled meat, Population, General Medicine, Genomics, Heritability, Best linear unbiased prediction, Beef cattle, Biology, Breeding, Statistics, Genetics, Animals, Animal Science and Zoology, Cattle, Selection, Genetic, education, Genotyping, Selection (genetic algorithm), Dairy cattle, Food Science

Abstract

The implementation of genomic selection for Japanese Black cattle, known for rich marbling of their meat, is now being explored. Although multiple-step methods are often adopted for dairy cattle, they present shortcomings such as bias and loss of information in addition to operational complexity. These can be avoided using single-step genomic BLUP (ssGBLUP) based on the relationship matrix H, which is constructed from the numerator relationship matrix (A) augmented by the genomic relationship matrix (G). This study assessed the use of ssGBLUP for 3 economically important traits in Japanese Black cattle. Three aspects of ssGBLUP that are important for practical use were examined specifically: the mixing proportions of blending G with A, selection of subsets of genotyped animals used for constructing H, and prediction ability for ungenotyped animals. Different mixing proportions were tested to assess the influence of these proportions on variance component estimation and prediction accuracy. For all traits, the highest or nearly highest accuracy was obtained when the adopted mixing proportion provided heritability closest to that inferred based on A. However, the accuracy did not increase greatly under adjustment of the mixing proportion, thereby suggesting that the influence of the mixing proportion on the accuracy was limited. Genotype data of influential bulls showed a greater contribution to accuracy than that of bulls that were less influential. Genotyping animals with phenotypic records increased the accuracy. It can be prioritized over genotyping bulls that are not influential on the population. These results are expected to present good guides to the future expansion of genotyped populations. Even for animals without genotype data but with genotyped sires, ssGBLUP provided more accurate prediction than BLUP did. For both phenotype and breeding value prediction, ssGBLUP provides more accurate prediction than BLUP, suggesting its usefulness in genomic selection in Japanese Black cattle.

Published

2014

26. Analyses on Goat and Sheep Red Cell Antigens by 32 Kinds of Monoclonal Antibodies

Author

Toshiyuki Akimoto, Koh Nomura, Takashi Amano, and Kazuhito Kurogi

Subjects

Antigen, medicine.drug_class, Immunology, medicine, Red cell antigens, Biology, Monoclonal antibody, Virology

Abstract

Monoclonal antibodies (mAbs) against red cell antigens of goat and sheep were produced by the standard method. A total of 32 kinds of mAbs, which were 24 mAbs to goat and 8 mAbs to sheep were established. Red cell antigens recognized by these mAbs were analyzed with 438 samples from seven goat groups including a wild goat and 79 samples from two sheep groups.The frequency of Ac-3 antigenic factor in Saanen and Pigmy groups was 0.316 and 0.615, respectively, but this antigen was found to be absent in Asian native goat groups. The Mc-2 factor was found at a high frequency in Pigmy and Asian native goat groups (0.800-1.0), but at a low frequency in the Saanen group (0.316) .Eleven mAbs of goat reacted with sheep and five mAbs of sheep reacted with goat. Namely, a total of 16 factors was found in both goat and sheep. Furthermore, two mAbs each of goat and sheep reacted with cattle, among which the goat Mc-1 factor was identified with the A2 factor of the A system in cattle.

Published

1997

27. Production and Specificities of Monoclonal Antibodies to Horse Blood Group Antigens

Author

Yoshihiro Natsuno, Nobuyoshi Miura, Michinari Yokohama, Yoshiko Suzuki, Isao Mitsui, Hitoshi Gawahara, Koh Nomura, Takashi Amano, and Kazuhito Kurogi

Subjects

Titer, Antigen, Equine, medicine.drug_class, Horse blood, medicine, Horse, Red cell antigens, Biology, Monoclonal antibody, Pan-T antigens, Molecular biology

Abstract

Monoclonal antibodies (mAbs) to red cell antigens of horse were produced by the standard method. Seventeen kinds of mAb (NHA-1, NHA-19, I-1C12, I-3E3, NHA-2, NHA-3, I-1E3, I-1A3, NAH-20, NAH-26, NAH-18, TA-1, NH-23, YA-1, I-3F10, 5C8 and NH-15) to horse blood group antigens were established, and their specificities were determined by the comparison test of the International Society for Animal Genetics. Out of these mAbs, both NHA-3 (anti-A2-dose) and I-1A3 (anti-Ax-dose) recognized antigens belonging to the A system. The titer of the NHA-3 varied with the presence or absence of Aa and Ab antigens, whereas that of the I-1A3 varied with the presence or absence of Aa and Ac antigens. The NH-15 (anti-Px-dose) recognized antigens of the P system, and its titer varied with the presence or absence of the Pc antigen of this system. The quantitative antigen, recognized by the NAH-18 (anti-Ca-dose) belonging to the C system, was found to occur in larger quantities on the red blood cells in heavy breeds than on those in light breeds. The present study showed that these mAbs prepared to horse blood group antigens may be useful for more detailed analysis of antigenic subtype relationships and quantitative antigens.

Published

1997