Proteomics of old world camelid (Camelus dromedarius): Better understanding the interplay between homeostasis and desert environment

Warda, Mohamad; Prince, Abdelbary; Kim, Hyoung Kyu; Khafaga, Nagwa; Scholkamy, T. H.; Linhardt, Robert J.; Han, Jin

doi:10.1016/j.jare.2013.03.004

Cited by 23 publications

(27 citation statements)

References 38 publications

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“…Several surveillance studies have been carried out addressing known (Tehseen et al 2015;El Wathig et al 2016) andemerging (Miguel et al 2017;Babelhadj et al 2018) zoonotic diseases, like the Middle Eastern Respiratory Syndrome (reviewed in Mubarak et al 2019). The importance of proteomic studies to understand camel adaptation to desert environment has been highlighted (Warda et al 2014), as well as the cellular and molecular mechanisms in response to heat stress (Hoter et al 2019). To the best of our knowledge, no study has investigated genomic aspects in dromedaries or Bactrian camels related to disease resistance, resilience or environmental adaptation.…”

Section: Disease and Environmental Adaptationmentioning

confidence: 99%

Old World camels in a modern world – a balancing act between conservation and genetic improvement

Burger¹,

Ciani

Faye

2019

Animal Genetics

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Old World camels have served humans in cross-continental caravans, transporting people and goods, connecting different cultures and providing milk, meat, wool and draught since their domestication around 3000-6000 years ago. In a world of modern transport and fast connectivity, these beasts of burden seem to be out-dated. However, a growing demand for sustainable milk and meat production, especially in countries affected by climate change and increasing desertification, brings dromedaries (Camelus dromedarius) and Bactrian camels (Camelus bactrianus) back onstage and into the focus of animal breeders and scientists. In this review on the molecular genetics of these economically important species we give an overview about the evolutionary history, domestication and dispersal of Old World camels, whereas highlighting the need for conservation of wild two-humped camels (Camelus ferus) as an evolutionarily unique and highly endangered species. We provide cutting-edge information on the current molecular resources and on-going sequencing projects. We cannot emphasise enough the importance of balancing the need for improving camel production traits with maintaining the genetic diversity in two domestic species with specific physiological adaptation to a desert environment.

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Section: Disease and Environmental Adaptationmentioning

confidence: 99%

Old World camels in a modern world – a balancing act between conservation and genetic improvement

Burger¹,

Ciani

Faye

2019

Animal Genetics

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“…Such a "strengthening" of cell membranes could be a typical requisite for desert animals. This hypothesis is supported by a recent study using proteomics [7]. If species are adapted to periodic dehydration-rehydration cycles and fluid shifts between body compartments, there should be mechanisms that prevent cells from mechanical destruction due to the accompanying changes of the ionic environment.…”

Section: Specific Feature Of the Dromedary Camelmentioning

confidence: 73%

“…The MCHC is very high (46 -51 g*dL −1 ), which results in a high cytoplasmic viscosity, since viscosity scales up in a non-linear fashion with MCHC [54]. In the camel, the marginal band on the cell poles and the high content of integral proteins in the red cell bilayer together with the close connection of band 3 protein to ankyrin fortify the RBCs against mechanical stress [7,24,25]. Such a "strengthening" of cell membranes could be a typical requisite for desert animals.…”

Section: Specific Feature Of the Dromedary Camelmentioning

confidence: 99%

“…These mechanisms include low water turnover rates, fluid shift between compartments to maintain plasma volume [3], reduced urine and saliva production, urine and saliva concentration, reduction of the metabolic rate [4], selective brain cooling, and heterothermy [5,6]. In a proteomics study, Warda et al [7] found that heat shock proteins in brain and heart are overexpressed in the camel. The camel also expresses high levels of vimentin in hump adipocytes, affecting not only the lipid and glucose metabolism of the hump, but also underlining the importance to conserve cell shape and morphology.…”

Section: Introductionmentioning

confidence: 99%

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Temperature dependency of whole blood viscosity and red cell properties in desert ungulates: Studies on scimitar-horned oryx and dromedary camel

Windberger

Auer

Plasenzotti

et al. 2018

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BACKGROUND:The dromedary camel and the oryx antelope are exposed to excessive heat and solar radiation in their desert habitat. Desertification of areas with by now little rainfall may occur eventually. Well-adapted large animal species show us what is needed to survive in scorching regions. METHODS: Four scimitar-horned oryx antelopes (Oryx dammah), 10 camels (Camelus dromedarius), nine South African Merino sheep, and 17 Nguni cows were tested for RBC aggregation, RBC elongation, and plasma viscosity. The temperature dependency of blood viscosity was tested in 10 camels and compared to human reference values. RESULTS: Unlike sheep, Nguni cow, and dromedary camel, oryx RBCs aggregate in native plasma (M0:5.2 (3.3/6.7); M1:18.1 (16.7/27.9); Myrenne MA1). Elongation indices of oryx RBCs were intermediate to low (EImax: 22.6 (19.2/25.3); SS½ 3.67 (2.52/4.95); Rheodyn SSD). Camel RBCs did not display the typical SS/EI curve by rotational ektacytometry. In-vitro blood viscosity (Physica MCR302) was lower in camels than in human blood at equal hematocrit. A decrease of temperature had only little effect on camel blood. At 10s −1 , blood viscosity in camel increased from 2.18mPa*s (2.01/2.37) at 42• C to 4.39mPa*s (4.22/4.51) at 12 • C. In human blood, viscosity ranged from 8.21mPa*s (6.95/8.25) at 37 • C to 15.52mPa*s (14.25/16.03) at 12• C. At 1000s −1 , blood viscosity in camel ranged from 2.00mPa*s (1.95/2.04) at 42 • C to 3.98mPa*s (3.88/4.08) at 12• C. In human blood, viscosity ranged from 5.35mPa*s (4.96/5.87) at 37 • C to 11.24mPa*s (10.06/11.17) at 12• C. CONCLUSIONS: Desert ungulates may need RBC membranes, which are fortified to withstand changes in osmolality during dehydration-rehydration cycles. This reduces RBC deformability. Dromedary camel blood does not undergo stark changes in viscosity with changes in temperature. Therefore, blood fluidity could be rather maintained during the day and night cycle. This should reduce the need of the vascularity to rhythmically adapt to changing shear forces when camels experience heterothermy.

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“…Meanwhile, the camel can survive long periods even after more than 40 % loss of its body hydration and drink as much as 57 L of water in a short period of time. Such rapid rehydration can cause death to other mammals (Warda et al, 2014). Special ultrastructure of endothelial cells in coronary arteries may be related to these features of such species.…”

Section: Discussionmentioning

confidence: 99%

Ultrastructure Features of Coronary Artery Endothelium in Bactrian Camel (Camelus bactrianus)

Yuan

Pan

et al. 2016

Int. J. Morphol.

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SUMMARY:Vascular endothelium play an essential role in regulating endothelial functions by maintaining normal vascular tone, modulating hemostasis, and preventing thromobogenesis. The aim of present study was to reveal ultrastructure features of coronary artery endothelium in Bactrian Camels by means of scanning electron microscope (SEM) technology. The results showed that the endothelial cells distribute along the direction of blood flow. Their morphology and protuberant degree towards luminal surface vary for different parts of the coronary artery. The luminal surface of a.c oronaria sinistra and a. coronaria dextra was covered by impaired and intact endothelium, respectively. Platelets and leukocytes sticking to the endothelium were found.

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Proteomics of old world camelid (Camelus dromedarius): Better understanding the interplay between homeostasis and desert environment

Cited by 23 publications

References 38 publications

Old World camels in a modern world – a balancing act between conservation and genetic improvement

Old World camels in a modern world – a balancing act between conservation and genetic improvement

Temperature dependency of whole blood viscosity and red cell properties in desert ungulates: Studies on scimitar-horned oryx and dromedary camel

Ultrastructure Features of Coronary Artery Endothelium in Bactrian Camel (Camelus bactrianus)

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