👤 Maira Yaseen

Xinjiang Brown cattle are an important beef breed in Northwest China. Although multigenerational selective breeding has improved their growth performance, the accompanying molecular adaptations and potential physiological trade- ofs remain insufficiently elucidated at the systemic level. This study aimed to decipher the dynamic serum proteomic profiles shaped by both ontogeny and generational selection in Xinjiang Brown cattle, and to identify the associated key proteins and pathways. Serum samples from 18 bulls across three genera- tions (A, B, C) at 3 and 9 months of age were analyzed using Tandem Mass Tag (TMT)-based quantitative proteomics. Under stringent quality control (FDR < 1%), 583 high-confidence proteins were identified. Diferentially expressed proteins (DEPs) were screened using thresholds of |fold change| ≥ 1.2 and This study reveals that the breeding strategy for Xinjiang Brown cattle prioritizes shaping a proteomic landscape that promotes growth and metabolism, potentially at the cost of atten- uated immune-vascular reactivity. The identified panel of candidate proteins pro- vides a molecular framework for evaluating breeding outcomes and designing balanced selection strategies. Follow-up research should further investigate the functions of these candidate proteins and validate their predictive value for health and production performance in independent herds. Show less

For a long time, noncoding RNAs (ncRNAs) were considered irrelevant fragments of the genome, dismissed as genetic noise. However, recent breakthroughs have unveiled their crucial Role in regulating gene expression, influencing fundamental biological processes such as chromatin remodeling, epigenetic modifications, and cellular communication. Among them, long noncoding RNAs (lncRNAs) and microRNAs (miRNAs) have drawn considerable attention due to their strong association with neurodegenerative disorders and cardiovascular diseases (CVDs). Despite their apparent differences, these conditions share molecular regulatory networks that ncRNAs help orchestrate. LncRNAs, like ANRIL and MEG3, play a Role in vascular integrity and cardiac fibrosis, while MIAT and MALAT1 are implicated in heart failure and ischemic injury. In Alzheimer's disease, BACE1-AS and BC200 contribute to the buildup of amyloid plaques and tau protein tangles, worsening cognitive decline. The ability of ncRNAs to act as molecular sponges-binding to miRNAs and modulating gene expression-demonstrates their intricate Role in disease progression. With advances in sequencing technologies and computational biology, ncRNAs are emerging as promising biomarkers and therapeutic targets. New approaches, including CRISPR-based gene editing and RNA therapeutics, present exciting possibilities for intervention. However, challenges such as stability, precise delivery, and potential side effects must be addressed before these treatments can be translated into clinical practice. This chapter delves into the expanding field of ncRNA research, highlighting its potential to reshape the future of precision medicine and targeted therapies. Show less

Sex hormone-binding globulin (SHBG), which regulates androgen and estrogen bioavailability, has been linked to cognitive decline, but its relationship with temporal lobe changes-an area vulnerable in early Alzheimer's disease (AD)-remains unclear. This study aimed to investigate whether plasma SHBG levels are associated with temporal lobe volume and cognitive performance across the cognitive spectrum from normal aging to AD. Participants included individuals with AD (n = 85), mild cognitive impairment (MCI; n = 304), and cognitively normal controls (CN; n = 50). Cognitive performance was assessed using the ADAS-Cog 11, MMSE, and CDR-SB. Temporal lobe volumes were derived from MRI scans using tensor-based morphometry (TBM), and plasma SHBG levels were measured using a validated immunoassay. Multiple regression analyses adjusted for age, sex, education, handedness, and APOE ε4 status were conducted, followed by mediation analysis to test indirect effects through temporal lobe volume. After covariate adjustment, elevated plasma SHBG levels were significantly associated with reduced temporal lobe volume in the MCI group. Across both MCI and AD participants, greater temporal lobe volume correlated with better cognitive performance on all tests. Mediation analysis indicated that in MCI, the relationship between higher plasma SHBG and poorer cognitive outcomes was significantly mediated by reduced temporal lobe volume. These findings suggest that elevated SHBG may contribute to early cognitive impairment in MCI through its impact on temporal lobe integrity, highlighting SHBG as a potential target in the prodromal stages of AD. Show less

A substantial body of evidence points to the heritability of dietary preferences. While vegetarianism has been practiced for millennia in various societies, its practitioners remain a small minority of people worldwide, and the role of genetics in choosing a vegetarian diet is not well understood. Dietary choices involve an interplay between the physiologic effects of dietary items, their metabolism, and taste perception, all of which are strongly influenced by genetics. In this study, we used a genome-wide association study (GWAS) to identify loci associated with strict vegetarianism in UK Biobank participants. Comparing 5,324 strict vegetarians to 329,455 controls, we identified one SNP on chromosome 18 that is associated with vegetarianism at the genome-wide significant level (rs72884519, β = -0.11, P = 4.997 x 10-8), and an additional 201 suggestively significant variants. Four genes are associated with rs72884519: TMEM241, RIOK3, NPC1, and RMC1. Using the Functional Mapping and Annotation (FUMA) platform and the Multi-marker Analysis of GenoMic Annotation (MAGMA) tool, we identified 34 genes with a possible role in vegetarianism, 3 of which are GWAS-significant based on gene-level analysis: RIOK3, RMC1, and NPC1. Several of the genes associated with vegetarianism, including TMEM241, NPC1, and RMC1, have important functions in lipid metabolism and brain function, raising the possibility that differences in lipid metabolism and their effects on the brain may underlie the ability to subsist on a vegetarian diet. These results support a role for genetics in choosing a vegetarian diet and open the door to future studies aimed at further elucidating the physiologic pathways involved in vegetarianism. Show less

Pashmina goat (Capra hircus) is an economically important livestock species, which habitats the cold arid desert of the Ladakh region (India), and produces a princely animal fiber called Pashmina. The Pashmina goat has a double coat fleece as an adaptation to the very harsh cold winters the outer long coarse hair (guard hair) produced from primary hair follicles and the inner fine Pashmina fiber produced from secondary hair follicles. Pashmina fiber undergoes a circannual and synchronized growth cycle. In the present study, we analyzed transcriptome profiles from 10 different Pashmina goats during anagen and telogen to delineate genes and signaling pathways regulating active (anagen) and regressive (telogen) phases of the follicle growth. During anagen, 150 genes were expressed at significantly higher levels with log (FC) > 2 and p Show less