Dopamine and the regulation of cell proliferation in gerbil (Meriones unguiculatus) pyloric mucosa
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Mongolian gerbil (Meriones unguiculatus)은 선천적으로 불완전한 뇌바닥동맥고리와 특이한 콜레스테롤 대사를 가진 동물로서 수분의 섭취 없이도 장기간 생존이 가능하기 때문에 최근 뇌신경학 연구방면에 많이 이용되는 동물이다. 따라서 본 연구는 mongolian gerbil을 절수시켰을 때 시간의 경과에 따라 중뇌 및 다리뇌에서...
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Cells dividing by mitosis were revealed in the tubular epithelium of 5 of 23 allografted kidneys of mongrel dogs. These mitoses were localized in the proximal and distal convoluted tubules (88 and 21 mitoses, respectively). Four pathological mitoses among 29 dividing epithelial cells were revealed 3 and 5 days after the operation, whereas no pathological mitoses were found among 80 mitoses of the kidneys present in the recipient's organism for 1 and 2 days. No mitoses were observed in the tubular epithelium of control kidneys (in the unoperated dogs).
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Rodents are the most abundant and taxonomically diverse order of living mammals. Meriones unguiculatus , the Mongolian gerbil, is a rodent naturally distributed in the desert, grasslands, and agricultural fields. Although used as a relevant experimental model, the genetic information on gerbils is limited. The Mongolian gerbil is the most widely used species of gerbils in the laboratory and a preferred model species for pharmacological research.
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An adult from a research colony and a litter of 5-week-old Mongolian gerbils (Meriones unguiculatus) from a pet store were found to have pinworms identified as Syphacia obvelata. The infected gerbils were allowed to cohabitate with uninfected gerbils. Similarly, infected gerbils were caged with uninfected mice and infected mice with uninfected gerbils. Results of these studies showed that Syphacia obvelata can be transmitted from gerbil to gerbil, gerbil to mouse, and mouse to gerbil.
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Mongolian gerbils (Meriones unguiculatus) are widely used as animal models for a variety of infectious diseases. However, immunological reagents such as cytokines have not been characterized. Two heterohybridomas, D9(E6)C2B3 and D9(E4), obtained by fusion of gerbil splenocytes with mouse myeloma cells (P3-X63-Ag8.653), expressed gerbil CD3G mRNA. These cells were suggested to be T cell heterohybridomas. They also expressed gerbil IL6 [D9(E6)C2B3] and TGFB [D9(E4) and D9(E6)C2B3] mRNAs. The addition of conditioned medium (CM) obtained from the culture of D9(E6)C2B3 significantly enhanced antibody secretion and expression of gerbil Cγ1 and Cε IGHC mRNAs in the B11D2(C2) heterohybridoma, which secretes gerbil IgG1. However, the addition of CM from both heterohybridomas did not improve in proliferation of B11D2(C2) cells. These results indicate that CM from D9(E6)C2B3 improved the culture of gerbil–mouse heterohybridomas, possibly by secreting gerbil IL6.
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