Summary Background Due to the thriving development of the modern horse industry and the occurrence of horse related crimes, the demand for methods of individual horse identification, parentage tests and other genetic analyses is increasing. Previous methods had disadvantages that decreased the accuracy of the results, lacked the inclusion of all commonly used short tandem repeats (STR) or increased the experimental cost and time. Objectives We aimed to develop a novel 13‐plex STR typing system to resolve the above issues. Study design Experimental study. Methods Twelve autosomal and most commonly used di‐nucleotide STRs (AHT4, AHT5, ASB2, ASB17, ASB23, HMS2, HMS3, HMS6, HMS7, HTG4, HTG10 and VHL20), and a Y‐chromosomal STR (YJ10) were included. We redesigned the primers of eight STRs to establish a novel multiplex PCR system and tested this system for species specificity, sensitivity and repeatability. Results Full profiles were easily generated in one fast PCR reaction using a low‐cost polymerase, as little as 1 ng of horse DNA template and 13 pairs of primers labelled with fluorescent dyes. No full profile was generated from DNA templates of humans or other commonly encountered animals. We also established an allelic ladder that contained 110 alleles based on 200 horses from 12 breeds and calculated standard population genetic parameters based on 150 Thoroughbreds. Stutter analysis showed that the averages of the stutter ratios were distinctly lower than those of lower allele ratios and the combined probability of paternity exclusion for this system were 0.994659935 (CPEduo) and 0.999854032 (CPEtrio). Main limitations A nonspecific and relatively low peak at 316 bp was frequently observed in locus HMS2, which is a nonexistent allele in all horses and should be ignored. Conclusions Our results indicate that this 13‐plex STR genotyping system is sensitive, species‐specific, cost‐effective and robust for applications in the horse industry and forensic investigation.
The experiment was conducted to investigate the influence of different levels of zinc (Zn) on cashmere growth, plasma testosterone and Zn profile in male Cashmere goats. Twenty-eight male Liaoning Cashmere goats, 3 years old and body weight at 56.2 ± 2.45 kg, were assigned to four groups. The animals were fed a basal diet containing of 45.9 mg Zn/kg dry matter (DM) basis and supplemented with 0, 20, 40 or 80 mg Zn (reagent grade ZnSO₄ ·7H₂ O) per kg DM for 90 days. There was no significant effect on growth and diameter of cashmere fibre for Zn supplemented in diets. However, the length and growth rate of wool were improved (p < 0.05) with dietary Zn. The length and growth rate of wool were higher (p < 0.05) for the groups supplemented with 40 or 80 mg Zn/kg DM compared with that of 20 mg Zn/kg DM treatment group. Plasma testosterone concentration was increased for Zn supplemented in diets, and the testosterone concentration was higher (p < 0.05) in goats fed on the diet supplemented with 40 or 80 mg Zn/kg DM compared with those fed on basal diet. Plasma Zn concentrations increased (p < 0.05) with increasing dietary Zn and supplemented with 40 and 80 mg Zn/kg DM groups improved plasma Zn concentration (p < 0.05) more than 20 mg Zn/kg DM group. Fibre Zn content was higher (p < 0.05) in groups supplemented with 40 or 80 mg Zn/kg DM compared with control group, but no difference between Zn-supplemented groups (p > 0.05). The activity of plasma alkaline phosphatase was increased (p < 0.05) due to dietary Zn supplementation; however, no difference was found between supplemented treatment groups (p > 0.05). In conclusion, Zn content (45.9 mg Zn/kg DM) in control diet was insufficient for optimal wool growth performance, and we recommended the level of dietary Zn for such goats is 86 mg/kg DM during the breeding season and cashmere fibre growing period.
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