Morphological Analysis of the Lung of Neonatal Yak

Yang, Bo; Yu, Sijiu; Cui, Yan; He, Junlin; Jin, Xinhua; Wang, R.

doi:10.1111/j.1439-0264.2009.00988.x

Cited by 14 publications

(10 citation statements)

References 35 publications

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“…The lung provides a gas exchange surface that enables the body to obtain oxygen and remove carbon dioxide. For this reason, the alveolar surface is directly proportional to the rate of oxygen consumption for each individual, whilst many other factors including sex and age also influence the proportions of cells present in the respiratory tract (Yang et al., 2010).…”

Section: Introductionmentioning

confidence: 99%

Expression of Oestrogen Receptors in Foetal Lung Tissue of Mice

Carvalho¹,

Gonçalves

2011

Anat Histol Embryol

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Oestrogens are responsible for the sexual dimorphism in adult mice lung tissue, and this difference is most notable at sexual maturity. Oestrogen receptor-alpha (ERα) and the oestrogen receptor-beta (ERβ) are the two receptors that mediate oestrogen action, but adult mice lung tissue only expresses ERβ, and it is probably through this receptor that oestrogens exert their action. The goal of our study was to detect the expression of ERα and ERβ in mouse foetal lung tissues and identify possible gender differences. The foetal lung tissue was collected between developmental days E15-E19, processed for histology and the expression of oestrogen receptors was detected by immunohistochemistry. Over the 5 days of lung development that were evaluated ERα was not expressed in the foetal lung tissues of neither male nor female mice. In contrast, ERβ was detected in both sexes, although the immunoreactivity differed for each developmental day whilst the staining intensity observed for ERβ also indicated differences between male and female lung tissues. The results demonstrate the existence of a gender difference in the foetal expression of ERβ in lungs of mice.

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Section: Introductionmentioning

confidence: 99%

Expression of Oestrogen Receptors in Foetal Lung Tissue of Mice

Carvalho¹,

Gonçalves

2011

Anat Histol Embryol

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“…Although the yak ( Bos grunniens ) is an important domestic animal in some of the higher altitude areas of the world, its anatomy is poorly documented (Yang et al., 2010). It was first domesticated about 4000 years ago in China, where there are now more than 13 million yaks, making up >90% of the world yak population.…”

Section: Introductionmentioning

confidence: 99%

The Cranial Cervical Ganglion and its Branches in the White Yak (Bos grunniens)

Shao¹,

Ding²,

Wang³

2011

Anatomia, Histologia, Embryologia

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The heads of 12 White yaks (four castrated, four male and four female, 3-8 years old) were dissected to study the shape, location and branches of the cranial cervical ganglion macroscopically. The ganglion was a greyish arciform structure, with a mean length of 17.3 mm, a width of 8.0 mm and a thickness of 3.9 mm, located on the rostrolateral surface of m. longus capitis. Approximately 5% of the ganglion was covered laterally by the tympanic bulla and the rest by the m. stylohyoideus. The branches of the cranial cervical ganglion included the internal and external carotid nerves, the sympathetic trunk and communicating branches to the glossopharyngeal nerve, the pharyngeal branch of the vagus nerve and the hypoglossal nerve. In one specimen, the left cranial cervical ganglion was fusiform and only covered by the m. stylohyoideus. Gender differences of the cranial cervical ganglion in the White yak were not observed.

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“…Yak has already attracted wide attention from scholars, both in this country and abroad, due to its good adaptability to plateau environments. At present, there are many studies on the morphological structure of organs and tissues in adult yaks [3]. Anatomically, yak ribs are relatively long, and the intercostal spacing is large, which can increase the chest size and provide a useful space for the development of the heart and lungs.…”

Section: Introductionmentioning

confidence: 99%

Changes in Elastic Fibres in Yak Lungs at Different Developmental Stages

Meng

Wang

et al. 2020

Preprint

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BackgroundYaks have a strong adaptability to the plateau environment, which is closely associated with the effective oxygen utilization rate of their lung tissue. The elastic fibre is an important adaptive structure of alveolar tissue. However, there are few studies on the development of the structure of lung tissue and the changes in elastic fibres of yak after birth. The purpose of this study was to investigate the changes of elastic fibers in the lungs of yaks after birth and the relationship between these changes and adaptation to hypoxic environment.ResultsIn this experiment, a histological method was employed to observe the changes in the lung tissue structure of yaks at four ages: 1 day old, 30 days old, 180 days old and adult. There was no significant difference in the area of a single alveolus between the 1-day-old and 30-day-old groups (P > 0.05). In yaks aged over 30 days, the single alveolar area gradually increased with age (P < 0.05). The observation of elastic fibres showed that elastic fibres in alveolar tissue increased significantly from the ages of 30 days to 180 days (P < 0.05) and stabilized after 180 days of age. Transcriptome analysis determined the highest levels of differentially expressed genes between 30 days of age and 180 days of age. KEGG analysis showed that the PI3K-Akt signalling pathway and MAPK pathway, which are involved in fibre formation, accounted for the largest proportion of differentially expressed genes between 30 days of age and 180 days of age. The expression levels of 36 genes related to fibre formation were analysed, and several genes related to elastic fibre formation and collagen fibre formation were determined to be highly expressed at the age of 30 days.ConclusionsThe content of elastic fibres in the alveolar tissue of yaks increases significantly after birth, but this change occurs only from 30 days of age to 180 days of age to make better use of oxygen in the environment.

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Morphological Analysis of the Lung of Neonatal Yak

Cited by 14 publications

References 35 publications

Expression of Oestrogen Receptors in Foetal Lung Tissue of Mice

Expression of Oestrogen Receptors in Foetal Lung Tissue of Mice

The Cranial Cervical Ganglion and its Branches in the White Yak (Bos grunniens)

Changes in Elastic Fibres in Yak Lungs at Different Developmental Stages

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