Your search keyword '"Jian Lin"' showing total 4 results

1. Whole-genome resequencing reveals genomic variation and dynamics in Ethiopian indigenous goats.

Author

Sheriff, Oumer, Ahbara, Abulgasim M., Haile, Aynalem, Alemayehu, Kefyalew, Jian-Lin Han, and Mwacharo, Joram M.

Subjects

GOATS, GENOME-wide association studies, WHOLE genome sequencing, GENOMICS, ETHIOPIANS, INBREEDING, HOMOZYGOSITY

Abstract

Ethiopia has about 52 million indigenous goats with marked phenotypic variability, which is the outcome of natural and artificial selection. Here, we obtained whole-genome sequence data of three Ethiopian indigenous goat populations (Arab, Fellata, and Oromo) from northwestern Ethiopia and analyzed their genome-wide genetic diversity, population structure, and signatures of selection. We included genotype data from four other Ethiopian goat populations (Abergelle, Keffa, Gumuz, and Woyto-Guji) and goats from Asia; Europe; and eastern, southern, western, and northern Africa to investigate the genetic predisposition of the three Ethiopian populations and performed comparative genomic analysis. Genetic diversity analysis showed that Fellata goats exhibited the lowest heterozygosity values (Ho = 0.288 ± 0.005 and He = 0.334 ± 0.0001). The highest values were observed in Arab goats (Ho = 0.310 ± 0.010 and He = 0.347 ± 4.35e-05). A higher inbreeding coefficient (FROH = 0.137 ± 0.016) was recorded for Fellata goats than the 0.105 ± 0.030 recorded for Arab and the 0.112 ± 0.034 recorded for Oromo goats. This indicates that the Fellata goat population should be prioritized in future conservation activities. The three goat populations showed the majority (~63%) of runs of homozygosity in the shorter (100-150 Kb) length category, illustrating ancient inbreeding and/or small founder effects. Population relationship and structure analysis separated the Ethiopian indigenous goats into two distinct genetic clusters lacking phylogeographic structure. Arab, Fellata, Oromo, Abergelle, and Keffa represented one genetic cluster. Gumuz and Woyto-Guji formed a separate cluster and shared a common genetic background with the Kenyan Boran goat. Genome-wide selection signature analysis identified nine strongest regions spanning 163 genes influencing adaptation to arid and semi-arid environments (HOXC12, HOXC13, HOXC4, HOXC6, and HOXC9, MAPK8IP2), immune response (IL18, TYK2, ICAM3, ADGRG1, and ADGRG3), and production and reproduction (RARG and DNMT1). Our results provide insights into a thorough understanding of genetic architecture underlying selection signatures in Ethiopian indigenous goats in a semi-arid tropical environment and deliver valuable information for goat genetic improvement, conservation strategy, genome-wide association study, and marker-assisted breeding. [ABSTRACT FROM AUTHOR]

Published

2024

2. Whole-genome resource sequences of 57 indigenous Ethiopian goats.

Author

Belay, Shumuye, Belay, Gurja, Nigussie, Helen, Jian-Lin, Han, Tijjani, Abdulfatai, Ahbara, Abulgasim M., Tarekegn, Getinet M., Woldekiros, Helina S., Mor, Siobhan, Dobney, Keith, Lebrasseur, Ophelie, Hanotte, Olivier, and Mwacharo, Joram M.

Subjects

WHOLE genome sequencing, GOATS, DNA sequencing, FARMERS, SINGLE nucleotide polymorphisms

Abstract

Domestic goats are distributed worldwide, with approximately 35% of the one billion world goat population occurring in Africa. Ethiopia has 52.5 million goats, ~99.9% of which are considered indigenous landraces deriving from animals introduced to the Horn of Africa in the distant past by nomadic herders. They have continued to be managed by smallholder farmers and semi-mobile pastoralists throughout the region. We report here 57 goat genomes from 12 Ethiopian goat populations sampled from different agro-climates. The data were generated through sequencing DNA samples on the Illumina NovaSeq 6000 platform at a mean depth of 9.71x and 150 bp pair-end reads. In total, ~2 terabytes of raw data were generated, and 99.8% of the clean reads mapped successfully against the goat reference genome assembly at a coverage of 99.6%. About 24.76 million SNPs were generated. These SNPs can be used to study the population structure and genome dynamics of goats at the country, regional, and global levels to shed light on the species' evolutionary trajectory. [ABSTRACT FROM AUTHOR]

Published

2024

3. Whole metagenome sequencing of cecum microbiomes in Ethiopian indigenous chickens from two different altitudes reveals antibiotic resistance genes.

Author

Kumar, Himansu, Park, Woncheoul, Lim, Dajeong, Srikanth, Krishnamoorthy, Kim, Jun-Mo, Jia, Xin-Zheng, Han, Jian-Lin, Hanotte, Olivier, Park, Jong-Eun, and Oyola, Samuel O.

Subjects

*DRUG resistance in bacteria, *CECUM, *CHICKENS, *GENES, *ALTITUDES, *RHIZOSPHERE

Abstract

We analyzed the whole genomes of cecum microbiomes of Ethiopian indigenous chickens from two distinct geographical zones: Afar (AF) district (Dulecha, 730 m above sea level) and Amhara (AM) district (Menz Gera Midir, 3300 m). Through metagenomic analysis we found that microbial populations were mainly dominated by Bacteroidetes and Firmicutes. We identified 2210 common genes in the two groups. LEfSe showed that the distribution of Coprobacter, Geobacter, Cronobacter, Alloprevotella, and Dysgonomonas were more abundant in AF than AM. Analyses using KEGG, eggNOG, and CAZy databases indicated that the pathways of metabolism, genetic information processing, environmental information processing, and cellular process were significantly enriched. Functional abundance was found to be associated with the nutrient absorption and microbial localization of indigenous chickens. We also investigated antibiotic resistant genes and found antibiotics like LSM, cephalosporin, and tetracycline were significantly more abundant in AF than AM. • Microbial comparison of scavenging chicken's cecum content between high land and low land region of Ethiopia. • Differential functional annotations of identified microbiota from both regions. • Antibiotic resistant genes identification and their differential abundance. [ABSTRACT FROM AUTHOR]

Published

2020

4. Anthropogenic events and responses to environmental stress are shaping the genomes of Ethiopian indigenous goats.

Author

Belay S, Belay G, Nigussie H, Ahbara AM, Tijjani A, Dessie T, Tarekegn GM, Jian-Lin H, Mor S, Woldekiros HS, Dobney K, Lebrasseur O, Hanotte O, and Mwacharo JM

Subjects

Animals, Ethiopia, Stress, Physiological genetics, Genetic Variation, Goats genetics, Genome, Phylogeny

Abstract

Anthropological and biophysical processes have shaped livestock genomes over Millenia and can explain their current geographic distribution and genetic divergence. We analyzed 57 Ethiopian indigenous domestic goat genomes alongside 67 equivalents of east, west, and north-west African, European, South Asian, Middle East, and wild Bezoar goats. Cluster, ADMIXTURE (K = 4) and phylogenetic analysis revealed four genetic groups comprising African, European, South Asian, and wild Bezoar goats. The Middle Eastern goats had an admixed genome of these four genetic groups. At K = 5, the West African Dwarf and Moroccan goats were separated from East African goats demonstrating a likely historical legacy of goat arrival and dispersal into Africa via the coastal Mediterranean Sea and the Horn of Africa. F ST , XP-EHH, and Hp analysis revealed signatures of selection in Ethiopian goats overlaying genes for thermo-sensitivity, oxidative stress response, high-altitude hypoxic adaptation, reproductive fitness, pathogen defence, immunity, pigmentation, DNA repair, modulation of renal function and integrated fluid and electrolyte homeostasis. Notable examples include TRPV1 (a nociception gene); PTPMT1 (a critical hypoxia survival gene); RETREG (a regulator of reticulophagy during starvation), and WNK4 (a molecular switch for osmoregulation). These results suggest that human-mediated translocations and adaptation to contrasting environments are shaping indigenous African goat genomes., (© 2024. The Author(s).)

Published

2024