# | Title | Journal | Year | Citations |
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1 | WHY AND HOW ANTIBIOTICS ARE USED IN SWINE PRODUCTION | Animal Biotechnology | 2002 | 483 |
2 | ANTIBIOTICS AS GROWTH PROMOTANTS:MODE OF ACTION | Animal Biotechnology | 2002 | 438 |
3 | PRODUCTION OF NUCLEAR TRANSFER-DERIVED SWINE THAT EXPRESS THE ENHANCED GREEN FLUORESCENT PROTEIN | Animal Biotechnology | 2001 | 171 |
4 | Tetracycline Residues and Tetracycline Resistance Genes in Groundwater Impacted by Swine Production Facilities | Animal Biotechnology | 2006 | 156 |
5 | Genetics of Antimicrobial Resistance | Animal Biotechnology | 2006 | 148 |
6 | THE FOOD SAFETY PERSPECTIVE OF ANTIBIOTIC RESISTANCE | Animal Biotechnology | 2002 | 139 |
7 | Regulation of hypoxanthine phosphoribosyltransferase, glyceraldehyde‐3‐phosphate dehydrogenase and β‐actin mRNA expression in porcine immune cells and tissues | Animal Biotechnology | 1998 | 132 |
8 | ALTERNATIVES TO THE USE OF ANTIBIOTICS AS GROWTH PROMOTERS FOR MONOGASTRIC ANIMALS | Animal Biotechnology | 2002 | 132 |
9 | TRANSGENIC PIGS PRODUCED USING IN VITRO MATURED OOCYTES INFECTED WITH A RETROVIRAL VECTOR | Animal Biotechnology | 2001 | 99 |
10 | Genetic Linkage and Horizontal Gene Transfer, the Roots of the AntibioticMulti-Resistance Problem | Animal Biotechnology | 2006 | 92 |
11 | Sperm‐mediated DNA transfer in bovine and swine species | Animal Biotechnology | 1996 | 89 |
12 | ALTERNATIVES TO ANTIBIOTIC USE: PROBIOTICS FOR THE GUT | Animal Biotechnology | 2002 | 86 |
13 | Polymerase chain reaction amplification of bovine β‐lactoglobulin genomic sequences and identification of genetic variants by RFLP analysis | Animal Biotechnology | 1990 | 80 |
14 | Use of estimated breeding values in a selection index to breed Yorkshire pigs for high and low immune and innate resistance factors | Animal Biotechnology | 1992 | 80 |
15 | Reduced Use of Antibiotic Growth Promoters in Diets Fed to Weanling Pigs: Dietary Tools, Part 2 | Animal Biotechnology | 2006 | 80 |
16 | Lipopolysaccharide Binding Protein/CD14/TLR4-Dependent Recognition of Salmonella LPS Induces the Functional Activation of Chicken Heterophils and Up-Regulation of Pro-Inflammatory Cytokine and Chemokine Gene Expression in These Cells | Animal Biotechnology | 2005 | 76 |
17 | Reduced Use of Antibiotic Growth Promoters in Diets Fed to Weanling Pigs: Dietary Tools, Part 1 | Animal Biotechnology | 2006 | 75 |
18 | Construct Synthetic Gene Encoding Artificial Spider Dragline Silk Protein and its Expression in Milk of Transgenic Mice | Animal Biotechnology | 2007 | 71 |
19 | Ammonia Assimilation in Rumen Bacteria: A Review | Animal Biotechnology | 2013 | 67 |
20 | A 3800 GENE MICROARRAY FOR CATTLE FUNCTIONAL GENOMICS: COMPARISON OF GENE EXPRESSION IN SPLEEN, PLACENTA, AND BRAIN | Animal Biotechnology | 2002 | 63 |
21 | SSCP analysis at the bovineCSN3locus discriminates six alleles corresponding to known protein variants (A, B, C, E, F, G) and three new DNA polymorphisms (H, I, A1) | Animal Biotechnology | 1999 | 62 |
22 | Reservoirs of Antibiotic Resistance Genes | Animal Biotechnology | 2006 | 61 |
23 | THE ISSUE OF ANTIBIOTIC USE IN THE LIVESTOCK INDUSTRY: WHAT HAVE WE LEARNED? | Animal Biotechnology | 2002 | 60 |
24 | Growth and Tissue Accretion Rates of Swine Expressing an Insulin-like Growth Factor I Transgene | Animal Biotechnology | 2004 | 59 |
25 | Antibiotic Use in Animal Agriculture: What Have We Learned and Where are We Going? | Animal Biotechnology | 2006 | 58 |
26 | The Fat Mass and Obesity-Associated (FTO) Gene is Associated with Intramuscular Fat Content and Growth Rate in the Pig | Animal Biotechnology | 2009 | 58 |
27 | Prebiotics can restrict Salmonella populations in poultry: a review | Animal Biotechnology | 2022 | 58 |
28 | Artificial insemination in cattle with DNA‐treated sperm | Animal Biotechnology | 1995 | 57 |
29 | Partial cloning and expression of the bovine leptin gene | Animal Biotechnology | 1998 | 57 |
30 | Antimicrobial Resistance in Scandinavia after a Ban of Antimicrobial Growth Promoters | Animal Biotechnology | 2006 | 57 |
31 | Sex determination of bovine embryos using the polymerase chain reaction | Animal Biotechnology | 1990 | 55 |
32 | Marker assisted selection ‐ an overview | Animal Biotechnology | 1994 | 55 |
33 | Isolation of embryonic cell‐lines from porcine blastocysts | Animal Biotechnology | 1995 | 54 |
34 | Applications of the random amplified polymorphic DNA (RAPD) assay for genetic analysis of livestock species | Animal Biotechnology | 1996 | 46 |
35 | Generation of GGTA1 Mutant Pigs by Direct Pronuclear Microinjection of CRISPR/Cas9 Plasmid Vectors | Animal Biotechnology | 2017 | 46 |
36 | Cloning and expression of the porcineobesegene | Animal Biotechnology | 1997 | 45 |
37 | IDENTIFICATION OF QTL FOR PRODUCTION TRAITS IN CHICKENS | Animal Biotechnology | 2005 | 45 |
38 | Associations ofA-FABPandH-FABPMarkers with the Content of Intramuscular Fat in Beijing-You Chicken | Animal Biotechnology | 2009 | 45 |
39 | Preparation and characterization of titanium dioxide nanoparticles andin vitroinvestigation of their cytotoxicity and antibacterial activity againstStaphylococcus aureusandEscherichia coli | Animal Biotechnology | 2022 | 45 |
40 | INTERVAL MAPPING OF CARCASS AND MEAT QUALITY TRAITS IN A DIVERGENT SWINE CROSS | Animal Biotechnology | 2001 | 44 |
41 | Trichostatin A Improved Epigenetic Modifications of Transfected Cells but did not Improve Subsequent Cloned Embryo Development | Animal Biotechnology | 2008 | 44 |
42 | Prolactin Receptor as a Candidate Gene for Prolificacy of Small Tail Han Sheep | Animal Biotechnology | 2007 | 41 |
43 | Vitrification of Mouse Embryos at Various Stages by Open-Pulled Straw (OPS) Method | Animal Biotechnology | 2005 | 40 |
44 | Characterization and Comparison of Chicken U6 Promoters for the Expression of Short Hairpin RNAs | Animal Biotechnology | 2007 | 40 |
45 | Genotyping of Novel SNPs in BMPR1B, BMP15, and GDF9 Genes for Association with Prolificacy in Seven Indian Goat Breeds | Animal Biotechnology | 2016 | 40 |
46 | Kappa‐casein polymorphisms in Indian dairy cattle and buffalo: A new genetic variant in buffalo1 | Animal Biotechnology | 1998 | 39 |
47 | Direct injection of foreign DNA into mouse testis as a possible alternative of sperm‐mediated gene transfer | Animal Biotechnology | 1994 | 38 |
48 | Hormonal induced lactation in transgenic goats | Animal Biotechnology | 2000 | 38 |
49 | Development of a touch-down multiplex PCR method for simultaneously rapidly detecting three novel insertion/deletions (indels) within one gene: an example for goat GHR gene | Animal Biotechnology | 2019 | 38 |
50 | LncRNA-000133 from secondary hair follicle of Cashmere goat: identification, regulatory network and its effects on inductive property of dermal papilla cells | Animal Biotechnology | 2020 | 38 |