Institution
Kettering University
Education•Flint, Michigan, United States•
About: Kettering University is a education organization based out in Flint, Michigan, United States. It is known for research contribution in the topics: Cancer & RNA. The organization has 6842 authors who have published 7689 publications receiving 337503 citations. The organization is also known as: GMI Engineering & Management Institute & General Motors Institute.
Topics: Cancer, RNA, Antigen, DNA, Population
Papers published on a yearly basis
Papers
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TL;DR: The clonal proliferation of the committed granulocyte-macrophage stem cell is controlled by a balance between mutually opposing factors, colony stimulating factor and prostaglandin E, both of monocyte- macrophage derivation.
Abstract: The clonal proliferation of the committed granulocyte-macrophage stem cell is controlled by a balance between mutually opposing factors, colony stimulating factor and prostaglandin E, both of monocyte-macrophage derivation. Increases beyond a critical concentration of colony stimulating factor within the local milieu of the mononuclear phagocyte induces the coincident elaboration of prostaglandin E, a self-regulated response which serves to limit the unopposed humoral stimulation of myelopoiesis.
262 citations
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TL;DR: The features of mirtron pathways illustrate unexpected flexibility in combining RNA processing pathways, and highlight how multiple functions can be encoded by individual transcripts.
259 citations
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TL;DR: A serological study of immunoglobulin-forming cells of the mouse, normal and malignant, shows that they lack all known surface differentiation antigens of the thymocyte-lymphocyte axis, implying that either immunoglOBulin-producing cells are not derived from thymic lymphocytes, or if they are, the program responsible for the transition must include extensive revision of cell surface structure.
Abstract: A serological study of immunoglobulin-forming cells of the mouse, normal and malignant, shows that they lack all known surface differentiation antigens of the thymocyte-lymphocyte axis: TL, theta, Ly-A, Ly-B, and MSLA. Two systems of normal alloantigens are expressed on these cells, H-2 and a new system named PC. The gene Pca (Plasma cell antigen) which specifies PC.1 alloantigen segregates as a mendelian dominant not closely linked with H-2. This cell surface antigen is absent from thymocytes, leukemias, and very probably from thymus-derived lymphocytes also; it is present on cells of the liver, kidney, brain, and lymph nodes as well as on hemolytic plaque-forming cells of the spleen, and on myelomas. So PC.1 is properly classified as a differentiation alloantigen. The strain distribution of PC.1 does not conform to that of any known immunoglobulin allotype or cell surface alloantigen previously described. Thus the cell surface antigens of immunoglobulin-producing cells are clearly different from those of cells belonging to the thymocyte-lymphocyte axis. Each family of cells has distinctive alloantigens, and the two families share alloantigens of only one known system, H-2. This implies that either immunoglobulin-producing cells are not derived from thymic lymphocytes, or if they are, the program responsible for the transition must include extensive revision of cell surface structure.
259 citations
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28 May 2003TL;DR: Chimeric T cell receptors (TCR) as mentioned in this paper are provided that combine, in a single chimeric species, the intracellular domain of CD3 ζ-chain, a signaling region from a costimulatory protein such as CD28, and a binding element that specifically interacts with a selected target.
Abstract: Chimeric T cell receptors (TCR) are provided that combine, in a single chimeric species, the intracellular domain of CD3 ζ-chain, a signaling region from a costimulatory protein such as CD28, and a binding element that specifically interacts with a selected target. When expressed, for example in T-lymphocytes from the individual to be treated for a condition associated with the selected target, a T cell immune response is stimulated in the individual to the target cells. The chimeric TCR's are able to provide both the activation and the co-stimulation signals from a single molecule to more effectively direct T-lymphocyte cytotoxicity against the selected target and T-lymphocyte proliferation.
259 citations
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TL;DR: Nucleotide sequence analysis of mutant complementary DNAs revealed a missense mutation that replaces aspartic acid with asparagine at position 790 in the c-kit protein product, a conserved residue in all protein kinases.
Abstract: The murine white spotting locus (W) is allelic with the proto-oncogene c-kit, which encodes a transmembrane tyrosine protein kinase receptor for an unknown ligand. Mutations at the W locus affect various aspects of hematopoiesis and the proliferation and migration of primordial germ cells and melanoblasts during development to varying degrees of severity. The W42 mutation has a particularly severe effect in both the homozygous and the heterozygous states. The molecular basis of the W42 mutation was determined. The c-kit protein products in homozygous mutant mast cells were expressed normally but displayed a defective tyrosine kinase activity in vitro. Nucleotide sequence analysis of mutant complementary DNAs revealed a missense mutation that replaces aspartic acid with asparagine at position 790 in the c-kit protein product. Aspartic acid-790 is a conserved residue in all protein kinases. These results provide an explanation for the dominant nature of the W42 mutation and provide insight into the mechanism of c-kit-mediated signal transduction.
258 citations
Authors
Showing all 6853 results
Name | H-index | Papers | Citations |
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Joan Massagué | 189 | 408 | 149951 |
Chris Sander | 178 | 713 | 233287 |
Timothy A. Springer | 167 | 669 | 122421 |
Murray F. Brennan | 161 | 925 | 97087 |
Charles M. Rice | 154 | 561 | 83812 |
Lloyd J. Old | 152 | 775 | 101377 |
Howard I. Scher | 151 | 944 | 101737 |
Paul Tempst | 148 | 309 | 89225 |
Pier Paolo Pandolfi | 146 | 529 | 88334 |
Barton F. Haynes | 144 | 911 | 79014 |
Jedd D. Wolchok | 140 | 713 | 123336 |
James P. Allison | 137 | 483 | 83336 |
Harold E. Varmus | 137 | 496 | 76320 |
Scott W. Lowe | 134 | 396 | 89376 |
David S. Klimstra | 133 | 564 | 61682 |