The objective of this study was to monitor health conditions of genetically identical somatic cells cloned Korean white cattle, endangered indigenous cattle (EIC) and indigenous cattle (IC) by analysis of hematologic characteristics. Naturally ovulated oocytes and donor cells were used for somatic cell nuclear transfer (SCNT). Donor cells and enucleated oocytes were followed by electric fusion, chemical activation and surgical embryo transfer into the oviducts of surrogate females. Two recipients became pregnant; two maintained pregnancy to term, and one live cattle were delivered by caesarean section. The cloned Korean white cattle were genetically identical to the nuclear donor cattle. As a result, the mean values of RBC and platelet of cloned cattle and white cattle were significantly decreased by age (P<0.05). The mean values of RBC, HCT, MCV and MCHC between cloned cattle and IC of the same age (1∼2 years) showed the statistical significance (P<0.05). Also, in the WBC of Korean white cattle, the estimated values were decreased according to the age from 12.0×103/μl under 1 year to 11.0×103/μl over 1 years respectively. Although clone-cattle had lower numbers of RBC than reference range, the most of RBC and WBC related heamatologic results of cloned cattle were not different when compared to reference range. This study suggests that cloned Korean white cattle derived from SCNT did not have remarkable health problems, at least in the growth pattern and hematological parameters. In addition, this study provides a valuable resource for further investigations of the preservation of rare genetic stocks underlying traits of interest in cattle.

The importance of genetic resource preservation has been highlighted in the literature as a means of maintaining genetic diversity. Investigations for hematologic values and the differential count of white blood cell count (WBC) for Korean indigenous cattle (KIC) and endangered indigenous cattle (EIC) are rarely performed. Therefore, the objective of this study was to investigate the hematologic values of total 40 EIC (White, Black, Mini cattle) and 35 KIC as control by analysis of hematologic characteristics. As a result, the mean values of RBC and platelet of EIC were significantly decreased by age (p<0.05). The mean values of RBC, HCT, MCV and MCHC between EIC and KIC of the same age (2 ～3 years) showed the statistical significance (p<0.05). Also, in the WBC of EIC, the mean values were decreased according to the age from 13.9×103/μL～12.7×103/μL under 1 year to 9.1×103/μL～11.5×103/μL over 2 years respectively. In the differential count of WBC of EIC (White, Black, Mini cattle), it showed generally the rates of 40.2%, 52.2%, 49.0% lymphocyte and 27.2%, 33.9%, 32.0% segmented neutrophil from 2～3 years respectively. Result of this study will be used for establishing reference range for blood analysis in EIC such as white, black and mini cattle. This study reported hematological values which could serve as baseline information for comparison in conditions of nutrient deficiency, physiological and health status of endangered Korean native cattle. In addition, this study provides a valuable resource for further investigations of the preservation of rare genetic stocks underlying traits of interest in cattle.

Telomeres at the end of the eukaryotic chromosomes consist of tandem repeats of (TTAGGG)n DNA sequence and shelter in protein complex. Telomeres have the essential functions in chromosome stability and genome integrity and are hence related to cell senescence and cancer. Stripped, Black and White Cattle (Endangered Korean Native Cattle) characterized by their coat color, live in the Korean peninsula. However, they are endangered, with very small populations remaining. To investigate the karyotypic pattern of chromosome and also to quantify the amount of telomeric DNA was carried out from the traditional Korean beef cattle species, HanWoo and endangered cattle bull. We quantified the amount of telomeric DNA by the Quantitative-Fluorescence in situ Hybridization (Q-FISH) technique using the telomeric DNA probe and chromosome analysis of lymphocytes was carried out using GTG-banding in 9 bull at age of 18 months. In results, we found that the normal (60, XY) male karyotype were detected in metaphase chromosomes from korean native cattle including Hanwoo, Stripped, Black and White cattle, respectively. In addition, there were no significant differences in the relative amount of telomeric DNA among the korean cattle bull. However, the relative amount of telomeric DNA of Hanwoo was slightly higher than that of White cattle. In conclusion, this study reported karytype and the amount of telomeric DNA which could serve as baseline information for comparison in conditions of physiological and health status of endangered Korean native cattle. Although we have no definitive explanations as to why this occurs, further investigations are needed to continue investigation of these animals throughout their life spans.