BIOMAT Database Logo BIOMAT Database Logo

The mechanisms of the action of DMSO on the heme synthesis of quail embryo yolk sac cells. 1981

T Terasawa, and Y Miura, and R Masuda

UI MeSH Term Description Entries
D007501 Iron A metallic element with atomic symbol Fe, atomic number 26, and atomic weight 55.85. It is an essential constituent of HEMOGLOBINS; CYTOCHROMES; and IRON-BINDING PROTEINS. It plays a role in cellular redox reactions and in the transport of OXYGEN. Iron-56,Iron 56
D011784 Quail Common name for two distinct groups of BIRDS in the order GALLIFORMES: the New World or American quails of the family Odontophoridae and the Old World quails in the genus COTURNIX, family Phasianidae. Quails
D012156 Reticulocytes Immature ERYTHROCYTES. In humans, these are ERYTHROID CELLS that have just undergone extrusion of their CELL NUCLEUS. They still contain some organelles that gradually decrease in number as the cells mature. RIBOSOMES are last to disappear. Certain staining techniques cause components of the ribosomes to precipitate into characteristic "reticulum" (not the same as the ENDOPLASMIC RETICULUM), hence the name reticulocytes. Reticulocyte
D002478 Cells, Cultured Cells propagated in vitro in special media conducive to their growth. Cultured cells are used to study developmental, morphologic, metabolic, physiologic, and genetic processes, among others. Cultured Cells,Cell, Cultured,Cultured Cell
D004121 Dimethyl Sulfoxide A highly polar organic liquid, that is used widely as a chemical solvent. Because of its ability to penetrate biological membranes, it is used as a vehicle for topical application of pharmaceuticals. It is also used to protect tissue during CRYOPRESERVATION. Dimethyl sulfoxide shows a range of pharmacological activity including analgesia and anti-inflammation. DMSO,Dimethyl Sulphoxide,Dimethylsulfoxide,Dimethylsulphinyl,Dimethylsulphoxide,Dimexide,Rheumabene,Rimso,Rimso 100,Rimso-50,Sclerosol,Sulfinylbis(methane),Rimso 50,Rimso50,Sulfoxide, Dimethyl,Sulphoxide, Dimethyl
D004247 DNA A deoxyribonucleotide polymer that is the primary genetic material of all cells. Eukaryotic and prokaryotic organisms normally contain DNA in a double-stranded state, yet several important biological processes transiently involve single-stranded regions. DNA, which consists of a polysugar-phosphate backbone possessing projections of purines (adenine and guanine) and pyrimidines (thymine and cytosine), forms a double helix that is held together by hydrogen bonds between these purines and pyrimidines (adenine to thymine and guanine to cytosine). DNA, Double-Stranded,Deoxyribonucleic Acid,ds-DNA,DNA, Double Stranded,Double-Stranded DNA,ds DNA
D004900 Erythroblasts Immature, nucleated ERYTHROCYTES occupying the stage of ERYTHROPOIESIS that follows formation of ERYTHROID PRECURSOR CELLS and precedes formation of RETICULOCYTES. The normal series is called normoblasts. Cells called MEGALOBLASTS are a pathologic series of erythroblasts. Erythrocytes, Nucleated,Normoblasts,Proerythroblasts,Pronormoblasts,Erythroblast,Erythrocyte, Nucleated,Normoblast,Nucleated Erythrocyte,Nucleated Erythrocytes,Proerythroblast,Pronormoblast
D004920 Erythropoiesis The production of red blood cells (ERYTHROCYTES). In humans, erythrocytes are produced by the YOLK SAC in the first trimester; by the liver in the second trimester; by the BONE MARROW in the third trimester and after birth. In normal individuals, the erythrocyte count in the peripheral blood remains relatively constant implying a balance between the rate of erythrocyte production and rate of destruction. Erythropoieses
D006418 Heme The color-furnishing portion of hemoglobin. It is found free in tissues and as the prosthetic group in many hemeproteins. Ferroprotoporphyrin,Protoheme,Haem,Heme b,Protoheme IX
D006454 Hemoglobins The oxygen-carrying proteins of ERYTHROCYTES. They are found in all vertebrates and some invertebrates. The number of globin subunits in the hemoglobin quaternary structure differs between species. Structures range from monomeric to a variety of multimeric arrangements. Eryhem,Ferrous Hemoglobin,Hemoglobin,Hemoglobin, Ferrous

Related Publications

T Terasawa, and Y Miura, and R Masuda
Glycogen synthesis, storage and transport mechanisms in the yolk-sac membrane of the chick embryo.
June 1968, Wilhelm Roux' Archiv fur Entwicklungsmechanik der Organismen,
T Terasawa, and Y Miura, and R Masuda
Synthesis of serum proteins by cultures of chick embryo yolk sac endodermal cells.
November 1983, Developmental biology,
T Terasawa, and Y Miura, and R Masuda
Regulation of erythropoiesis in avian embryo yolk sac cells.
December 1978, Nihon Ketsueki Gakkai zasshi : journal of Japan Haematological Society,
T Terasawa, and Y Miura, and R Masuda
Erythropoiesis and lymphopoiesis in the chick yolk-sac-embryo chimeras: contribution of yolk sac and intraembryonic stem cells.
February 1982, Blood,
T Terasawa, and Y Miura, and R Masuda
Proteolytic activity in the yolk sac membrane of quail eggs.
May 1999, Comparative biochemistry and physiology. Part A, Molecular & integrative physiology,
T Terasawa, and Y Miura, and R Masuda
Origin of embryo-derived yolk sac carcinomas.
April 1977, International journal of cancer,
T Terasawa, and Y Miura, and R Masuda
Yolk sac endoderm: exclusive site of serum protein synthesis in the early chick embryo.
March 1980, Developmental biology,
T Terasawa, and Y Miura, and R Masuda
Ultrastructure of the secondary yolk sac in pig's embryo.
January 1994, Folia morphologica,
T Terasawa, and Y Miura, and R Masuda
Temporal transcriptome analysis of the chicken embryo yolk sac.
August 2014, BMC genomics,
T Terasawa, and Y Miura, and R Masuda
Comparison of the metabolic activity of yolk sac tissue in the whole embryo and isolated yolk sac culture.
January 1992, Reproductive toxicology (Elmsford, N.Y.),
Copied contents to your clipboard!