H. Zhang scite author profile

H. Zhang

5Publications

75Citation Statements Received

35Citation Statements Given

How they've been cited

124

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Affiliations

China Agricultural University

Publications

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Blood Characteristics for High Altitude Adaptation in Tibetan Chickens

Zhang

Chamba

et al. 2007

Poultry Science

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Tibetan chickens, a unique chicken breed native to high altitude, have good adaptation to hypoxia. The experiment was conducted to determine the adaptive blood characteristics in Tibetan chickens. Fertile eggs from Tibetan and Dwarf Recessive White chickens were incubated, and the chicks were reared until 10 wk of age at low altitude (100 m) and high altitude (2,900 m). At 1 d and 2, 6, and 10 wk of age, the hematological characteristics, blood gas value, and blood volume were measured. Tibetan chickens had more red blood cells (RBC), smaller mean cell volume, lower pH and partial pressure of oxygen, and higher partial pressure of carbon dioxide at high altitude and had lower blood volume, erythrocyte volume, and plasma volume at low and high altitude than Dwarf Recessive White chickens. Tibetan chickens reared at high altitude retained a high level of RBC and a stable level of hematocrit from younger to older, but Dwarf Recessive White chickens reared at high altitude presented an increase in RBC and hematocrit values. It was concluded the adaptation was achieved in Tibetan chickens by increase in RBC and blood oxygen affinity, decrease in mean cell volume, and reducing susceptivity to hypocapnia.

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Differential gene expression of aldolase C (ALDOC) and hypoxic adaptation in chickens

et al. 2007

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Two sequence variants of the aldolase C (ALDOC) gene were discovered based on comparison of the sequences from an altiplano chicken breed (Tibetan chicken) and two lowland breeds (White Leghorn and ShouGuang). Gel-shift results indicated that one of these variants, L25375:c.310-258G>A, was able to bind hypoxia-induced factor-l (HIF1A), therefore, functioning as a hypoxia response element (HRE). The combined activity of the HRE and HIF1A could increase under the influence of a hypoxic stimulus. Hypoxia leads to increased death rates of chicken embryos, while the L25375:c.310-258G>A described herein is prevalent in healthy embryos grown under hypoxic conditions. Fluorescence quantitative real-time PCR results revealed that HIF1A upregulated the transcript level of the glycolytic enzyme ALDOC in the brain and skeletal muscle of animals subjected to hypoxia. Thus, a large amount of ATP is produced by increased glycolysis, allowing the organism to meet energy metabolism demands. As such, we believe this sequence variant is an adaptation to external anoxic environment.

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Blood Gas, Hemoglobin, and Growth of Tibetan Chicken Embryos Incubated at High Altitude

et al. 2007

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Metabolism and hatchability are impaired when chicken eggs laid at sea level are incubated at high altitude. The Tibetan chicken is an excellent local poultry breed that inhabits altitudes of 2,900 m and has a hatchability of approximately 75% at that altitude. To understand how Tibetan chicken embryos develop successfully at high altitude, we compared blood gas, pH, hemoglobin concentrations and embryo mass for Tibetan chicken embryos (T) and for embryos from a dwarf breed (D) that normally is reared at sea level. The 2 breeds (T and D) and 2 incubation altitudes (2,900 m = high, H; and 100 m = low, L) were compared at 9, 12, 15, and 18 d of incubation. Embryo weights were lower for the high altitude groups (TH, DH) than for the low altitude groups at all stages of incubation. The embryo mass of TH appeared to increase more quickly than that of DH. Compared with DH, TH embryos had lower arterialized oxygen partial pressure on d 18, higher venous carbon dioxide partial pressure from d 12 to 18, and higher hemoglobin concentration and lower venous blood pH values on d 12 and 15. These findings indicate that the ability of the Tibetan chicken embryos to adapt to the high altitude may be due to the increase in hemoglobin concentration, which augments the blood oxygen-carrying capacity. In addition, the higher venous carbon dioxide partial pressure and lower venous blood pH promote unloading of oxygen from hemoglobin.

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Genetic variations and sequences analysis of MTATP6 and MTATP8 genes among different Chinese pig breeds

Liu

Zhang

et al. 2010

J Animal Breeding Genetics

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To investigate the genetic variations of mtATP6 and mtATP8 genes among different Chinese pig breeds, two fragments of 425 and 743 bp containing the whole coding region of mtATP8 and mtATP6 genes were amplified with 805 individuals from 23 Chinese local pig breeds, three types of Chinese wild boars and three European pig breeds. Sequence comparison identified a total number of 17 substitutions including six variable sites in mtATP8 and eleven substitutions in mtATP6 gene. The restriction enzyme Fok I revealed four polymorphic sites (nt8086, 8176, 8514 and 7784), and four RFLP haplotype patterns (A, B, C and D) were identified in mtATP6 and mtATP8 genes among all tested samples. Our data showed AC combined haplotype originated from Asia and BD was regarded as European origin. The average frequency of Asian mtDNA haplotypes was 38.3% across the investigated European breeds but varied within each breeds (13.3∼76.7%). Phylogenetic analyses were performed also considering some published sequences in the databases; the sequences were divided into three distinct groups, denoted A, E1, and E2. The Asian AC haplotype existed among the European domestic pigs was fully consistent with the results of previous molecular studies and well-documented history. This study will help us to better understand the genetic variations of mitochondrial genes among different Chinese pig breeds.

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Analysis on Genetic Relationships in Lily Hybrids Based on Issr Molecular Markers

Zhao¹,

Fan²,

Zhang³

et al. 2014

Acta Hortic.

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H. Zhang

Blood Characteristics for High Altitude Adaptation in Tibetan Chickens

Differential gene expression of aldolase C (ALDOC) and hypoxic adaptation in chickens

Blood Gas, Hemoglobin, and Growth of Tibetan Chicken Embryos Incubated at High Altitude

Genetic variations and sequences analysis of MTATP6 and MTATP8 genes among different Chinese pig breeds

Analysis on Genetic Relationships in Lily Hybrids Based on Issr Molecular Markers

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