Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.17 (lysozyme)
 21,489 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

With very few exceptions, it has not been possible to grow human myeloid cells for long periods in culture. We have recently developed techniques enabling the long-term in vitro propagation of normal immature myeloid cells from fresh foetal cord blood and monocytes from normal adult peripheral blood, and have utilized these procedures to initiate cultures of fresh peripheral blood leukocytes from leukemic donors. In four of 26 leukemic samples tested, leukocyte replication beyond that obtained in control cultures was observed, and in one of these HL-92, derived from the peripheral blood of a patient with acute myelomonocytic leukemia, the culture has continued to replicate slowly for over 2 years under the special growth conditions. Morphological, cytochemical, immunological and functional studies show that the culture consists predominantly of immature myeloid cells (myeloblasts through to myelocytes) but also contains some mature neutrophils and monocytes. At least a portion of HL-92 cells express Fc and complement receptors, contain histacompatibility locus antigens, including HLA-DR, and release GM-CSA, low levels of PGE and lysozyme. HL-92 cells can be induced with DMSO or RA to differentiate into mature neutrophils (an increase from 20 to 70% of the cell population) as determined by morphology, by an increase in phagocytic cells, and superoxide anion production. Fresh leukocytes from the patient's bone marrow appeared to have a diploid karyotype. However a consistent chromosomal abnormality observed in HL-92 was a deletion in the long arm of chromosome 11 [del(11)(q23)]. This is consistent with recent observations in monocytic leukemia. Since the few other established human myeloid cell lines have various chromosomal abnormalities, and some respond to differentiation inducers, while others do not, there appears to be no detectable common chromosome change required either for in vitro growth of myeloid cells or their response to inducers of differentiation. These cell lines and the application of the techniques described here for the growth of myeloid cells from other leukemic or normal sources should be helpful in the study of normal and leukemic myeloid cell growth and differentiation.
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PMID:Establishment, characterization and differentiation induction of a new human diploid myelomonocytic cell line (HL-92) derived from a patient with acute myelomonocytic leukemia. 696 Dec 68

A relaxation dispersion-based NMR experiment is presented for the measurement and quantitation of micros-ms dynamic processes at methyl side-chain positions in proteins. The experiment measures the exchange contribution to the 13C line widths of methyl groups using a constant-time CPMG scheme. The effects of cross-correlated spin relaxation between dipole-dipole and dipole-CSA interactions as well as the effects of scalar coupling responsible for mixing of magnetization modes during the course of the experiment have been investigated in detail both theoretically and through simulations. It is shown that the complex relaxation properties of the methyl spin system do not complicate extraction of accurate exchange parameters as long as care is taken to ensure that appropriate magnetization modes are interchanged in the middle of the constant-time CPMG period. An application involving the measurement of relaxation dispersion profiles of methionine residues in a Leu99Ala substitution of T4 lysozyme is presented. All of the methionine residues are sensitive to an exchange event with a rate on the order of 1200 s(-1) at 20 degrees C that may be linked to a process in which hydrophobic ligands are able to rapidly bind to the cavity that is present in this mutant.
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PMID:Probing slow time scale dynamics at methyl-containing side chains in proteins by relaxation dispersion NMR measurements: application to methionine residues in a cavity mutant of T4 lysozyme. 1145 42