Preliminary studies on the molecular mechanism of intramuscular fat deposition in the longest dorsal muscle of sheep.

BACKGROUND: Intramuscular fat content is an important index reflecting the quality of mutton, which directly affects the flavor and tenderness of mutton. Livestock and poultry intramuscular fat content is influenced by genetics, nutritional level, and environmental factors. Key regulatory factors play a crucial role in intramuscular fat deposition. However, there is a limited amount of research on the identification and function of key genes involved in intramuscular fat content deposition specifically in sheep. RESULTS: Histological differences in the longest dorsal muscle of the small-tailed frigid sheep increased in diameter and decreased in several muscle fibers with increasing monthly age; The intramuscular fat content of the longest dorsal muscle of the small-tailed cold sheep varied with age, with a minimum of 1 month of age, a maximum of 6 months of age, and a minimum of 12 months of age. Transcriptomic sequencing and bioinformatics analysis revealed a large number of differential genes in the longest dorsal muscles of little-tailed billy goats of different months of age, which were enriched in multiple GO entries and KEGG pathways. Among them, the pathway associated with intramuscular fat was the AMPK signaling pathway, and the related genes were PPARGC1A and ADIPOQ; Immunohistochemical studies showed that PPARGC1A and ADIPOQ proteins were expressed in connective tissues, cell membranes, and, to a lesser extent, the cytoplasm of the longest dorsal muscle of the little-tailed frigid sheep; Real-time PCR and Western Blot validation showed that PPARGC1A and ADIPOQ were both expressed in the longest dorsal muscle of the little-tailed frigid sheep at different ages, and there were age differences in the amount of expression. The ADIPOQ gene was negatively correlated with the intramuscular fat content of the longest dorsal muscle, and the PPARGC1A gene was positively correlated with the intramuscular fat content of the longest dorsal muscle; As inferred from the above results, the ADIPOQ gene was negatively correlated with the intramuscular fat content of the longest dorsal muscle (r = -0.793, P < 0.05); and the PPARGC1A gene was positively correlated with the intramuscular fat content of the longest dorsal muscle r = 0.923, P < 0.05). CONCLUSIONS: Based on the above results, it can be inferred that the ADIPOQ gene is negatively correlated with the intramuscular fat content of the longest back muscle (r = -0.793, P < 0.05); the PPARGC1A gene is positively correlated with the intramuscular fat content of the longest back muscle (r = 0.923, P < 0.05).

Expression of miRNA-1-3p and its target gene in hair follicle cycle development of Liaoning Cashmere goat.

MicroRNA exerts an important regulatory role in almost all the biological process, including hair follicle development in Liaoning Cashmere goat. In order to improve the Cashmere performance of goat, the regulatory role of microRNA in hair follicle cycle has drawn hotspot attention. However, the molecular mechanisms of miRNA-1-3p involved in hair follicle development are poorly understood. In this study, we found that miRNA-1-3p was less expressed in anagen stage of hair follicle cycle of Cashmere goat than that in telogen stage by using RT-qPCR and immunoblotting analysis, in contrast to the expression pattern of FGF14. The Dual-Luciferase reporter assay was employed to verify the relationship between miRNA-1-3p and FGF14. The results showed that miRNA-1-3p specifically binds to the 3'UTR of FGF14 mRNA, and FGF14 is the target gene of miR-1-3p. In conclusion, this study shows that miRNA-1-3p may regulate hair follicle development in Liaoning Cashmere goats by targeting FGF14.

MiR-19 3b regulated the formation of coat colors by targeting WNT10A and GNAI2 in Cashmere goats.

MiRNAs as a series of small noncoding RNAs that play a crucial part in regulating coat color and hair follicle development. In the previous Solexa sequencing experiments, there were many miRNAs expressed differentially in alpacas with different coat color, including miR-193b.But the mechanism of miR-193b in mammalian pigmentation is still unknown. In this study, bioinformatics analysis showed that WNT10A and GNAI2 might be the target genes of miR-193b. qRT-PCR showed the expression of miR-193b in white Cashmere goats' skins was obviously lower than that in browns, and the expression of WNT10A and GNAI2 were similar with miR-193b. The protein levels of WNT10A and GNAI2 indicated the same findings. Furthermore, the expression of WNT10A and GNAI2 in keratinocytes were analyzed from mRNA and protein levels, the results manifested that the group of overexpression of miR-193b in HaCaT cells increased the expressions of target genes, and miR-193b inhibition group reduced expressions. Luciferase report assays confirmed that the targeting relationship between miR-193b and target genes (WNT10A and GNAI2), the results showed that miR-193b was positively correlated with target genes. These experimental data showed that miR-193b might participate in adjustment of coat color in skin tissue of Cashmere goat by targeting WNT10A and GNAI2.

MiR-21 regulated hair follicle cycle development in Cashmere goats by targeting FGF18 and SMAD7.

Increasing Cashmere production can add value because it is the primary product of Cashmere goats. Recent years, peoples find miRNAs are crucial in regulating the development of hair follicle. Following Solexa sequencing, many miRNAs were distinguishingly expressed in telogen skin samples of goats and sheep in earlier study. But the method through which miR-21 controls the growth of hair follicles is still ambiguous. Bioinformatics analysis was used to predict the target genes of miR-21. The mRNA level of miR-21 in telogen Cashmere goat skins was higher than in anagen, according to the results of qRT-PCR, and the target genes expressed similarly with miR-21. Western blot showed similar trend, the protein expression of FGF18 and SMAD7 were lower in anagen samples. The Dual-Luciferase reporter assay confirmed miRNA-21's relationship with its target gene, and the consequences indicated found FGF18 and SMAD7 have positive correlations with miR-21. Western blot and qRT-PCR distinguished the expression of protein and mRNA in miR-21 and its target genes. According to the consequence, we found that target genes expression was increased by miR-21 in HaCaT cells. This study identified that miR-21 might take part in the development of Cashmere goat's hair follicles by targeting FGF18 and SMAD7.

MiR-125b regulates the differentiation of hair follicles in Fine-wool Sheep and Cashmere goats by targeting MXD4 and FGFR2.

With the development of miRNAs identification technology, more and more miRNAs have been discovered, and the role of miRNAs in the development of animal hair follicles has become a focus of research on hair-producing animals. In the previous experiment, compare the microRNA (miRNA) trancriptomes of goats and sheep skin using Solexa sequencing and differentially expressed miR-125b was screened. However, the mechanism of miR-125b regulating hair follicle development is not clear. Therefore, in the present study, the expression of miR-125b, MXD4 and FGFR2 in skin tissue of Fine-wool Sheep and Cashmere goats and HEK-293T cells was examined by qPCR and Western blot. Furthermore, the correlation between miR-125b and the predicted target gene (MXD4, FGFR2) was verified using the Dual-luciferase Reporter assay. We demonstrated that the expression of MXD4 and FGFR2 in Cashmere goats was significantly higher than that of Fine-wool Sheep, and the expression was opposite to that of miR-125b. miR-125b can down-regulate the levels of MXD4 and FGFR2. Dual-luciferase reporter gene assay showed that miR-125b could bind to the 3'-UTR region of target genes FGFR2 and MXD4, suggesting that MXD4 and FGFR2 were target genes of miR-125b. This study has shown that the growth and development of hair follicles in skin tissue of Fine-wool Sheep and Cashmere goats from the new regulatory levels of miRNAs, and clarified the mechanism of miR-125b and its target genes in the development of hair follicles in the skin.

MiR-27a regulates WNT3A and KITLG expression in Cashmere goats with different coat colors.

MicroRNAs(miRNAs) regulate and control gene expression at the post-transcriptional level by base pairing with its target gene 3'UTR, resulting in degradation of the target mRNA or inhibition of its translation. The previous high-throughput sequencing results indicated that miR-27a was involved in coat color regulation. However, the mechanism of action is not still illuminated. In this research, using western blotting and real-time quantitative polymerase chain reaction(qRT-PCR), the expression of miR-27a, WNT3A and KITLG were examined in the skin of Cashmere goats with white and brown, and human embryonic kidney 293 T cells (HEK-293T cells) which over-express miR-27a. Targeting relationship between miR-27a and WNT3A or KITLG was examined by the luciferase reporter gene system. The qRT-PCR detection showed that miR-27a was more highly expressed in white Cashmere goats skin than that in brown Cashmere goats skin. Furthermore, WNT3A and KITLG mRNA and protein expression were down-regulated by miR-27a in vitro and in vivo. A dual-luciferase reporter gene indicated that miR-27a negatively correlates with WNT3A or KITLG. In a word, our research demonstrated that the expression of miR-27a was evidently differential in the white and brown Cashmere goats skin and WNT3A or KITLG was negatively regulated by miR-27a.

Differential expression of MC1R gene in Liaoning Cashmere goats with different coat colors.

Melanocyte stimulating hormone receptor (MC1R) has been known as a regulator of eumelanin and phaeomelanin production in the melanocytes, and MC1R mutations causing coat color changes are known in many vertebrates; however, there are no research reports about the differentially expression of MC1R gene and its coding protein in Cashmere goats with different coat color. We examined the presence of MC1R distribution and MC1R protein and gene expression in the white Cashmere goats and black Cashmere goats, respectively; q-PCR, Western blot and immunhistochemical analysis showed that the expression of the MC1R gene in the black Cashmere goats was 3.39 fold more than the white ones (p < 0.01), and Cashmere goats with black genotype had significantly higher (2.03, p < 0.01) MC1R protein expression than white genotype in the all investigated samples. Moreover, all Cashmere goats with different coat color available for immunhistochemical analysis showed either lower (white Cashmere goats) or higher (black Cashmere goats) expression of the MC1R protein; these findings suggested that it had a relationship between the MC1R and the coat color of Cashmere goats. That could lay the foundation for the further research of the MC1R and coat color controllability regulation of the Cashmere goats.

Differential expression of miR-let7a in hair follicle cycle of Liaoning cashmere goats and identification of its targets.

In order to improve the production and quality of Chinese cashmere, the research of hair follicle development has aroused more and more attention; the regulation mechanism of miRNA in hair follicle development has become a hot spot. A survey of transcriptome profiling screened 10 hair follicle-related miRNAs that were differentially expressed, including miR-let7a. In this study, the expression of miR-let7a was lower in anagen of hair follicle of cashmere goats than that in catagen of hair follicle of cashmere goats (p < 0.01). Results were in accordance with transcriptome data. The expression patterns of miR-let7a target genes (IGF-1R, C-myc, and FGF5) were verified by qRT-PCR, which were consistent with the results of Western blot and showed a downward trend. The dual-luciferase reporter gene system was used to verify the correlation between the expression of miR-let7a and its target genes, and it showed that miR-let7a negatively correlates with C-myc and FGF5. Present study offers new information on miRNAs and their related target genes in the regulation of hair follicle development mechanism.

Histological analysis and identification of spermatogenesis-related genes in 2-, 6-, and 12-month-old sheep testes.

Testis development and spermatogenesis are vital factors that influence male animal fertility. In order to identify spermatogenesis-related genes and further provide a theory basis for finding biomarkers related to male sheep fertility, 2-, 6-, and 12-month-old Small Tail Han Sheep testes were selected to investigate the dynamic changes of sheep testis development. Hematoxylin-eosin routine staining and RNA-Seq technique were used to perform histological and transcriptome analysis for these testes. The results showed that 630, 102, and 322 differentially expressed genes (DEGs) were identified in 2- vs 6-month-old, 6- vs 12-month-old, and 2- vs 12-month-old testes, respectively. GO and KEGG analysis showed the following: DEGs in 2- vs 6-month-old testes were mainly related to the GO terms of sexual maturation and the pathways of multiple metabolism and biosynthesis; in 6- vs 12-month-old testes, most of the GO terms that DEGs involved in were related to metabolism and translation processes; the most significantly enriched pathway is the ribosome pathway. The union of DEGs in 2- vs 6-month-old, 6- vs 12-month-old, and 2- vs 12-month-old testes was categorized into eight profiles by series cluster. Subsequently, the eight profiles were classified into four model profiles and four co-expression networks were constructed based on the DEGs in these model profiles. Finally, 29 key regulatory genes related to spermatogenesis were identified in the four co-expression networks. The expression of 13 DEGs (CA3, APOH, MYOC, CATSPER4, SYT6, SERPINA10, DAZL, ADIPOR2, RAB13, CEP41, SPAG4, ODF1, and FRG1) was validated by RT-PCR.

Practical synthesis of anti-ß-hydroxy-α-amino acids by Pd(II) -catalyzed sequential C(sp(3) )-H functionalization.

An improved and practical procedure for the stereoselective synthesis of anti-ß-hydroxy-α-amino acids (anti-ßhAAs), by palladium-catalyzed sequential C(sp(3) )-H functionalization directed by 8-aminoquinoline auxiliary, is described. followed by a previously established monoarylation and/or alkylation of the ß-methyl C(sp(3) )-H of alanine derivative, ß-acetoxylation of both alkylic and benzylic methylene C(sp(3) )-H bonds affords various anti-ß-hydroxy-α-amino acid derivatives. As an example, the synthesis of ß-mercapto-α-amino acids, which are highly important to the extension of native chemical ligation chemistry beyond cysteine, is described. The synthetic potential of this protocol is further demonstrated by the synthesis of diverse ß-branched α-amino acids. The observed diastereoselectivities are strongly influenced by electronic effects of aromatic AAs and steric effects of the linear side-chain AAs, which could be explained by the competition of intramolecular C-OAc bond reductive elimination from Pd(IV) intermediates vs. intermolecular attack by an external nucleophile (AcO(-) ) in an SN 2-type process.

Palladium-catalyzed oxidative olefination of phenols bearing removable directing groups under molecular oxygen.

An efficient Pd(II)-catalyzed oxidative olefination of phenols bearing removable directing groups with molecular oxygen as the sole oxidant has been developed. This reaction protocol provides an efficient and robust synthetic tool for the synthesis of o-alkenyl phenols under mild conditions.

Pd(II)-catalyzed oxidative alkoxycarbonylation of 2-phenoxypyridine derivatives with CO and alcohols.

A Pd(ii)-catalyzed oxidative alkoxycarbonylation of phenol derivatives with atmospheric pressure of CO-O2 and alcohols has been achieved. The reaction provides an efficient strategy for the synthesis of carboxylic esters and can be applied to the late-stage modification of complex molecules.

Differential expression of the melanocortin-4 receptor in male and female C57BL/6J mice.

The melanocortin 4 receptor is a member of melanocortin receptors of G-protein-coupled receptors. By binding to melanocortin receptor agonists or antagonists, MC4R participates in the regulating of food intake, weight, energy homeostasis and sexual behavior. By activating the protein kinase A and leptin-melanocortin signalling pathways, MC4R mediates the amplification of signals from the hypothalamo-pituitary-adrenal and hypothalamo-pituitary-thyroid axes. This process permits peripheral information about the status of energy metabolism to be transmitted to the central nervous system. The hypothalamic nuclei then integrate these signals to evoke the appropriate reaction. We found that different sexes exhibited distinct metabolic regulation abilities, likely due to differences in these signalling pathways. MC4R plays a key role in coordinating the afferent messages from the peripheral and regulatory signals by controlling food intake and energy expenditure. To probe the disparities in metabolism and weight regulation between the sexes, we analyzed the expression of MC4R in different tissues from male and female mice by qRT-PCR and immunofluorescence. The results show that the expression of MC4R in brain and kidney is higher in female mice than in male mice, but in the livers, the result is opposition. Additionally, in both sexes, the expression of MC4R is higher in the brain than in the kidneys, and its expression in the liver is lowest, in males, the expression of MC4R in the testis is higher than that in the kidneys. These data show that the expression of MC4R exist different between sexes mice.

Genome-wide association research on the reproductive traits of Qianhua Mutton Merino sheep.

Objective: Qianhua Mutton Merino sheep is a new breed of meat wool sheep cultivated independently in China. In 2018, it was approved by the state and brought into the national list of livestock and poultry genetic resources. Qianhua Mutton Merino sheep has the common characteristics of typical meat livestock varieties with rapid growth and development in the early stage and high meat production performance.The objective of this research is to investigate the Genome-wide association of the reproductive traits of Qianhua Mutton Merino sheep. Methods: Qianhua Mutton Merino sheep from the breeding core group were selected as the research object, GWAS was conducted on genes associated with the reproductive traits (singleton or twins, birth weight, age [in days] for sexual maturity, weaning weight, and daily gain from birth to weaning) of Qianhua mutton merino. Results: Our study findings showed that 151 loci of SNPs were detected, among which 3 SNPs related to birth weight and weaning weight occupied a significant portion of the wide genome. The candidate genes preliminarily obtained were SYNE1, SLC12A4, BMP2K, CAMK2D, IMMP2L, DMD, and BCL2. Conclusion: 151 SNP loci were detected for five traits related to reproduction (including singleton or twins, birth weight, age [in days] at sexual maturity, weaning weight, and daily weight gain from birth to weaning). The functions of these candidate genes were mainly enriched in nucleotide metabolism, metal ion binding, oxytocin signaling pathway, and neurotrophin signaling pathway.

Fitting of Growth Curves and Estimation of Genetic Relationship between Growth Parameters of Qianhua Mutton Merino.

Qianhua Mutton Merino is a dual-purpose (meat and wool) breed of sheep that has been newly developed in China. In this study, we assessed the growth and development of the Qianhua Mutton Merino sheep breed under house feeding conditions by measuring the body weight and chest circumference of 2300 rams and ewes of this breed aged 0-24 months. Based on the fitting results of three nonlinear growth models, namely Logistic, Gompertz, and von Bertalanffy, in Qianhua Mutton Merino, we selected the von Bertalanffy model because of its highest fitting degree among all models (R2 > 0.977). The significant analysis of the combined fixation of each sheep body's weight and bust took place (A: mature body weight, B: adjustment parameter, K: instant relative growth rate). The results revealed that parameters A, B, and K of body weight and chest circumference have high heritability and thus could be used as target traits for genetic improvement. Moreover, the correlation strength among A, B, and K suggested that these parameters can be used as a reference to adjust the genetic parameters in the growth model to genetically improve the body size of Qianhua Mutton Merino during breeding.

The melanocortin 1 receptor (MC1R) inhibits the inflammatory response in Raw 264.7 cells and atopic dermatitis (AD) mouse model.

The alpha melanocyte stimulating hormone receptor (MC1R) is one of five G-protein coupled receptors belonging to the melanocortin subfamily, MC1R gene has been known to play a major role in regulating of fur color in mammals, and α-MSH and ACTH are endogenous nonselective agonists for MC1R. However, we found that MC1R was highly expressed in Raw 264.7 cells which were important inflammatory cells involved in the initiation of inflammatory responses. In addition, Cyclic AMP is not only a key molecule in the MC1R signal transduction pathway, but dampen innate immune-mediated responses. These intriguing biological results triggered the further conformation studies; it suggested that MC1R was very likely to be an important role in immunoregulation. In this study, we were to investigate the immunosuppressive effects of MC1R on inflammation in lipopolysaccharide (LPS) stimulated Raw 264.7 cells and LPS induced vivo 2-chloro-1,3,5-trinitrobenzene (TNCB)-induced atopic dermatitis (AD) model. The effects of the MC1R antagonist psoralen on pro-inflammatory cytokines and signaling pathways were analyzed by enzyme-linked immunosorbent assay, western blot, real-time fluorescence quantitative PCR and Histological analysis. Our results show a consistent and marked effect of high concentrations of MC1R antagonist psoralen increased the level of MC1R mRNA in Raw 264.7 cells by cumulative feedback regulation through preferential binding of MC1R. Moreover, as evidenced by inhibiting the LPS-induced TNF-α, IL-6 and enhancing the expression level of cyclic AMP protein in vitro. In vivo study it was also observed that psoralen promoted on histopathologic changes in the skin tissue of TNCB-induced AD mice. Taken together, our results suggest that MC1R decrease the inflammation in vitro and vivo, and might be a therapeutic signaling pathway to against inflammatory diseases.

A 1.1 Mb duplication CNV on chromosome 17 contributes to skeletal muscle development in Boer goats.

The Boer goat is one of the top meat breeds in modern animal husbandry and has attracted widespread attention for its unique growth performance. However, the genetic basis of muscle development in the Boer goat remains obscure. In this study, we identified specific structural variants in the Boer goat based on genome-wide selection signals and analyzed the basis of the molecular heredity of related candidate genes in muscle development. A total of 9 959 autosomal copy number variations (CNVs) were identified through selection signal analysis in 127 goat genomes. Specifically, we confirmed that the highest signal CNV (HSV) was a chromosomal arrangement containing an approximately 1.11 Mb (CHIR17: 60062304-61171840 bp) duplicated fragment inserted in reverse orientation and a 5 362 bp deleted region (CHIR17:60145940-60151302 bp) with overlapping genes (e.g., ARHGAP10, NR3C2, EDNRA, PRMT9, and TMEM184C). The homozygous duplicated HSV genotype (+/+) was found in 96% of Boer goats but was not detected in Eurasian goats and was only detected in 4% of indigenous African goats. The expression network of three candidate genes ( ARHGAP10, NR3C2, and EDNRA) regulating dose transcription was constructed by RNA sequencing. Results indicated that these genes were involved in the proliferation and differentiation of skeletal muscle satellite cells (SMSCs) and their overexpression significantly increased the expression of SAA3. The HSV of the Boer goat contributed to superior skeletal muscle growth via the dose effects of overlapping genes.

Research on meat quality of Qianhua Mutton Merino sheep and Small-tail Han sheep.

In this study, we analyzed the meat quality of Qianhua Mutton Merino sheep (QHMM). QHMM and Small-tail Han sheep (STH) were selected as the test animals. After slaughtering, the longissimus dorsi muscles were tested to determine the nutrient composition, content of amino acid, fatty acid, and muscle fiber diameter. According to the nutrient test result, the protein content of QHMM was higher than that of STH. However, the fat content was significantly lower (P < 0.05) than STH. Additionally, total amino acid content, total essential amino acid content, total half-essential amino acid content, total non-essential amino acid content, and flavor amino acid content of QHMM were significantly higher (P < 0.05) than those of STH. Moreover, the contents of C22:1 n9, C18:2 n6, C18:3 n6, C22:6 n6, and C10:0 of the muscle in QHMM were significantly higher (P < 0.05) than those of STH. Furthermore, the essential amino acid score, the total unsaturated-to-saturated fatty acid ratio, and the polyunsaturated-to-saturated fatty acid ratio of QHMM were greater than those of STH. Additionally, the muscle fiber diameter of QHMM was considerably lower (P < 0.01) than that of STH. In conclusion, the meat quality of QHMM was better than that of STH.

Exogenous Melatonin Directly and Indirectly Influences Sheep Oocytes.

Understanding whether and how melatonin (MT) may impact sheep oocyte development competence is central to our ability to predict how sheep oocytes will respond to artificially regulated estrus. Implanting MT can make sheep enter estrus during the non-breeding season. One study found that the blastocyst rate increased under MT treatment, while another found that the blastocyst rate decreased. Therefore, we conducted a meta-analysis of MT directly and indirectly influencing sheep oocytes. A total of 433 articles were collected from which 20 articles and 34 treatments were finally selected. A method for estimating the default value was established for the litter size analysis. We found that exogenous MT add into in vitro maturation medium was positively related to the blastocyst rate in the lab. However, subcutaneous implanting MT did not affect the in vivo ovulation rate, fertilization rate, blastocyst rate, or pregnancy rate at farm. MT did not affect the in vitro cleavage rate. However, MT improved the in vivo cleavage rate. We hypothesized that implanted MT could increase the concentration of MT in oviduct fluid in vivo, and also that in vitro MT could increase the early cleavage rate of sheep zygotes without affecting the total cleavage rate. In the analysis of oocyte apoptosis caused by injury, the results suggested that pyroptosis would be more suitable for further research. MT produces responses in all body organs, and thus implanting of MT during non-breeding seasons should consider the effect on animal welfare.

Stepwise Method and Factor Scoring in Multiple Regression Analysis of Cashmere Production in Liaoning Cashmere Goats.

Liaoning cashmere goat is a well-known local cashmere goat breed in China and even in the world. It is famous for producing cashmere with superior quality and high yield. Cashmere yield, body measurements, and body weight are the primary indicators of cashmere goat breeding, but the correlation between them is not yet clear. Therefore, this study investigated the relationship between certain body measurements, body weight, and cashmere yield in Liaoning cashmere goats using stepwise and factor score analyses in a multiple regression analysis. For this purpose, the body measurements (body slanting length (BSL), body height (BH), chest circumference (CC), pipe circumference (PC), chest depth (CD), chest width (CW), hip breadth (HB), body weight (BW) and cashmere yield (CY)) of 200 (2-year-old) Liaoning cashmere goats were collected. Stepwise analysis of the results showed that body weight had the greatest direct effect on cashmere yield, followed by hip breadth, while chest circumference mainly affected cashmere yield indirectly. The results of factor score analysis showed that the independent variable can be represented by two factors, which explained 49.596% and 12.095% of the total variance, respectively. The factor scores used in the regression analysis explained 75.8% of the total variance in Liaoning cashmere yield. The above studies show that the growth traits of Liaoning cashmere goats are closely related to the cashmere yield. Growth traits should be considered important factors in breed selection, germplasm identification, and rearing.