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http://dx.doi.org/10.5713/ajas.2004.1192

Comparison of Gene Expression Patterns in Longissimus dorsi of Pigs between the High-parent Heterosis Cross Combination andrace×Large White and the Mid-parent Heterosis Cross Combination Large White×Meishan

Liu, G.Y. (Key Laboratory of Swine Genetics and Breeding, Ministry of Agriculture, Huazhong Agricultural University)
Xiong, Y.Z. (Key Laboratory of Swine Genetics and Breeding, Ministry of Agriculture, Huazhong Agricultural University)
Deng, C.Y. (Key Laboratory of Swine Genetics and Breeding, Ministry of Agriculture, Huazhong Agricultural University)
Zuo, B. (Key Laboratory of Swine Genetics and Breeding, Ministry of Agriculture, Huazhong Agricultural University)
Zhang, J.H. (Key Laboratory of Swine Genetics and Breeding, Ministry of Agriculture, Huazhong Agricultural University)

Publication Information

Asian-Australasian Journal of Animal Sciences / v.17, no.9, 2004 , pp. 1192-1196 More about this Journal

Abstract

In order to detect the molecular mechanism of heterosis in pigs, the mRNA differential display technique was performed to investigate the differences in gene expression of pig's Longissimus dorsi between the high-parent heterosis cross combination Landrace ${\times}$ Large White and the mid-parent heterosis cross combination Large White ${\times}$ Meishan. Three pig purebreds, Large White, Meishan, and Landrace and four types of reciprocal $F_1$ hybrids were analyzed using nine 3'-end anchored primers in combination with ten 5'-end arbitrary primers and nearly 7,000 reproducible bands were examined. The patterns of gene expression of each cross combination were analyzed and eight common patterns (fifteen kinds) were found. When the results from the two cross combinations were put together and compared, eight different typical expression patterns were observed, these indicated that the patterns of gene expression of these two cross combinations had obvious differences. Gene expression correlation and cluster analyses of the two cross combinations indicated that the gene expression of the mid-parent heterosis cross combination was correlated with maternal effect, but in the high-parent heterosis cross combination, paternal effect acted in the gene expression of the hybrids or the gene expression of the hybrids was biased towards one parent.

Keywords

Differential Display; Heterosis; Gene Expression Patterns; Correlation and Cluster Analyses; Maternal Effect; Paternal Effect;

Citations & Related Records

Times Cited By Web Of Science : 51 (Related Records In Web of Science)
Times Cited By SCOPUS : 47

Reference
Cited By SCOPUS

1	Hua, J., Y. Xing, W. Wu, C. Xu, X. Sun, S. Yu, Q. Zhang. 2003. Single-locus heterotic effects and dominance by dominance interactions can adequately explain the genetic basis of heterosis in an elite rice hybrid. Proc. Natl. Acad. Sci. USA. 100: 2574-2579.
2	Linskens, M. H. 1995. Cataloging altered gene expression in young and senescent cells using enhanced differential display. Nuclei Acids Res. 23:3244-3251. DOI ScienceOn
3	Lu, H., J. Romero-Severson and R. Bernardo. 2003. Genetic basis of heterosis explored by simple sequence repeat markers in a random-mated maize population. Theor. Appl. Genet. 107:494-502.
4	Pan, Peiwen. 2002. Isolation, characterization and mapping of differentially expressed EST from porcine skeletal in different breeds or developing stages. Ph.D. Thesis, Huazhong Agricultural University, Wuhan, China.
5	Yamazaki, M. and K. Saito. 2002. Differential display analysis of gene expression in plants. CMLS, Cell. Mol. Life Sci. 59:1246-1255.
6	Yu, S. B., J. X. Li, C. G. Xu, Y. F. Tan, Y. J. Gao, X. H. Li, Qifa Zhang and M. A. Saghai Maroof. 1997. Importance of epistasis as the genetic basis of heterosis in an elite rice hybrid. Genetics. 94: 9226-9231.
7	Xiao, J., J. Li, L. Yuan and S. D. Tanksley. 1995. Dominance as the major genetic basis of heterosis in rice. Proceedings of the Third International Rice Genetics Symposium, Manila (Philippines).
8	Pan, P. W., S. H. Zhao, M. Yu, T. A. Xiong and K. Li. 2003. Identification of Differentially Expressed Genes in the Longissimus Dorsi Muscle Tissue between Duroc and Erhualian Pigs by mRNA Differential Display. Asian-Aust. J. Sci. Vol 16, No.7:1066-1070.
9	Liang, P. and A. B. Pardee. 1992. Differential display of eukaryotic messenger RNA by means of the polymerase chain reaction. Science 257:967-971.
10	Wu, L. M., Z. F. Ni, Z. K. Wang, Z. Lin and Q. X. Sun. 2001. Relationship between differential expression patterns of multigene families and heterosis in a wheat diallel crosses. Yi Chuan Xue Bao. 28:256-266.
11	Davenport, C. B. 1908. Degeneration, albinism and inbreeding. Science. 28:454-455. PUBMED
12	Shull, G. H. 1908. The composition of a field of maize. American Breeders' Association Report 4:296-301.
13	Liang, P., L. Averboukh and A. B. Pardee. 1993. Distribution and cloning of eukaryotic mRNAs by means of differential display: refinements and optimization. Nucleic Acids Res. 21:3269-3275.
14	Xie, X. D., Z. F. Ni, F. R. Meng, L. M. Wu, Z. K. Wang and X. Sun. 2003. Relationship between differences of gene expression in early developing seeds of hybrid versus parents and heterosis in wheat. Yi Chuan Xue Bao. 30:260-266.
15	East, E. M. 1908. Report of the Connecticut Agricultural Experimental Station for Years 1907-1908. 419-428.

6	G. Y. Liu. (2007) DNA Sequence , differentially expressed in the Longissimus dorsi muscle tissues from Meishan, Meishan × Large White cross and Large White pigs / 18 (6) , 415
4	G. Y. Liu. (2007) Molecular Biology Reports Isolation, sequence analysis and expression profile of a novel porcine gene, NIP7, differentially expressed in the Longissimus dorsi muscle tissues from Meishan, Meishan × Large White cross and Large White pigs / 34 (4) , 213
1	G. Y. Liu. (2007) Acta Agriculturae Scandinavica, Section A - Animal Science / 57 (1) , 10
2	G. Y. Liu. (2008) Molecular Biology Reports Isolation, sequence identification and tissue expression distribution of three novel porcine genes—RAB14, S35A3 and ITM2A / 35 (2) , 201
4	G. Y. Liu. (2008) Molecular Biology Reports Molecular characterization of the encoding regions and tissue expression analyses for three novel porcine genes––HNRPA1, YIPF5 and UB2D2 / 35 (4) , 519
1	G. Y. Liu. (2008) Molecular Biology Cloning, sequence characterization, and tissue expression profile analysis of three novel porcine genes—RHOB, RHOG, and PRAF1 / 42 (1) , 52
4	G. Y. Liu. (2008) Molecular Biology Molecular characterization and expression profile of a novel porcine gene differentially expressed in the muscle and backfat tissues from Chinese Meishan and Russian Large White pigs / 42 (4) , 499
3	Xianghua Shu. (2008) Journal of Applied Genetics Isolation, sequence identification and tissue expression profiles of 3 novel porcine genes:ASPA, NAGA, andHEXA / 49 (3) , 257
4	Liu Yonggang. (2009) Genetics and Molecular Biology A porcine gene, PBK, differentially expressed in the longissimus muscle from Meishan and Large White pig / 32 (4) , 771
1	G. Y. Liu. (2009) Molecular Biology Reports Molecular characterization and expression profile of a novel porcine gene differentially expressed in the muscle tissues from Meishan, Large White and their hybrids / 36 (1) , 57
3	G. Y. Liu. (2009) Molecular Biology Reports Molecular cloning and expression analyses of a novel swine gene-ARF4 / 36 (3) , 455
3	G. Y. Liu. (2009) Molecular Biology Reports cDNA cloning, sequence identification and tissue expression distribution of three novel porcine genes: UCHL3, RIT1 and CCND3 / 36 (3) , 521
4	Q. C. An. (2009) Molecular Biology Reports Molecular cloning, sequence identification, and tissue expression profile analysis of three novel porcine genes: SDHB, SNRPA and CRYBB1 / 36 (4) , 683
6	G. Y. Liu. (2009) Molecular Biology Reports Molecular cloning, polymorphism and association analyses of a novel porcine mRNA differentially expressed in the Longissimus muscle tissues from Meishan and Large White pigs / 36 (6) , 1393
8	G. Y. Liu. (2009) Molecular Biology Reports Molecular cloning, polymorphism and association analyses of a novel differentially expressed porcine mRNA / 36 (8) , 2279
1	G. Y. Liu. (2009) Journal of Applied Genetics Isolation, sequence identification, and tissue expression profile of 3 novel porcine genes:NCF2, BCKDHB andBCKDHA / 50 (1) , 47
3	L. Yonggang. (2009) Journal of Applied Genetics A novel sheep gene,MMP7, differentially expressed in muscles from black-boned sheep and local common sheep / 50 (3) , 253
6	Liangyu Yang. (2010) Molecular Biology Reports Isolation, nucleotide identification and tissue expression of three novel ovine genes—SLC25A4, SLC25A5 and SLC25A6 / 37 (6) , 2743
4	Liu Yonggang. (2010) Applied Biochemistry and Biotechnology A Novel Porcine Gene-erlin2, Differentially Expressed in the Liver Tissues from Meishan and Large White Pigs / 160 (4) , 1047
6	Liu Yonggang. (2010) Molecular Biology Reports Differential display reveals a novel pig gene, PRPF3, which is differentially expressed in Large White versus Wujin skeletal muscle tissues / 37 (6) , 2687
7	Liu Yonggang. (2010) Molecular Biology Reports A novel porcine gene, MAPKAPK3, is differentially expressed in the pituitary gland from mini-type Diannan small-ear pigs and large-type Diannan small-ear pigs / 37 (7) , 3345
1	Y. D. He. (2010) Molecular Biology Isolation, sequence identification and expression profile of three novel genes Rab2A, Rab3A and Rab7A from black-boned sheep (Ovis aries) / 44 (1) , 14
2	Caode Jiang. (2011) Journal of Applied Genetics A novel porcine gene, LIPC, differentially expressed in the liver tissues from Meishan and Large White pigs / 52 (2) , 219
3	(2004) Agricultural sciences in China Association of Single Nucleotide Polymorphisms in Exon 3 of Porcine <I>LMCD1</I> Gene with Meat Quality and Carcass Traits / 7 (3) , 370
10	(2018) Animal Production Science The influence of housing and feeding systems on selected fattening and slaughter parameters of finishing pigs with different genotypes / 58 (10) , 1915
1	(2004) Chinese journal of agricultural biotechnology Isolation, cloning and sequence analysis of differentially expressed genes in the backfat tissue between hybrids and parents in pigs / 3 (1) , 47
1	(2004) Chinese journal of agricultural biotechnology Isolation, identification and expression profile of fourteen differentially expressed sequence tags in the longissimus dorsi muscle tissues from Meishan, Meishan×Large White cross and Large Whit / 4 (1) , 9

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