The anti-My-10 mouse monoclonal antibody was raised against the immature human myeloid cell line KG-1a and was selected for nonreactivity with mature human granulocytes. Anti-My-10 immunoprecipitated a KG-1a cell surface protein with an apparent Mr of approximately 115 kD. We describe the binding of this antibody to human hematopoietic cell types and show that My-10 is expressed specifically on immature normal human marrow cells, including hematopoietic progenitor cells. My-10 is also expressed by leukemic marrow cells from a subpopulation of patients. Thus, this antibody allows the identification and purification of hematopoietic progenitor cells from normal human marrow and the subclassification of leukemia.
Anti-My-28 is an IgM kappa monoclonal antibody produced by a hybridoma prepared from spleen cells of a mouse immunized with normal human granulocytes. By immunofluorescence it binds to human granulocytes but not to monocytes and lymphocytes. However, after treating cells with neuraminidase, the antibody also binds to lymphocytes and monocytes and to many leukemic cell lines and patient leukemic blast cells. Anti-My- 28 binds to several neutral glycolipids and desialylated gangliosides of leukocytes and erythrocytes as detected by radioimmunoassay and immunostaining of thin-layer chromatograms. It recognizes a sugar sequence in lacto-N-neotetraose, Gal beta 1–4GlcNAc beta 1–3Gal beta 1–4Glc. This tetrasaccharide occurs in the glycolipids paragloboside and sialosylparagloboside, and its distal trisaccharide sequence is found in higher glycolipids and in glycoproteins.
Six Prader-Willi syndrome (PWS) patients with normal karyotypes and their parents were analyzed to determine the nature of the molecular aberrations present in the proximal region of 15q and to determine the parental origin of the aberrant chromosome 15. In addition, the likelihood that uniparental disomy plays a significant role in the etiology of PWS patients with normal karyotypes was studied. Restriction fragment length polymorphisms (RFLPs) recognized by seven probes [pML34 (D15S9), pTD3-21, pCGS0.9, pCGS1.1 (D15S10), IR4.3 (D15S11), IR10.1 (DS15S12), p189-1 (D15S13), IR39 (D15S18), and CMW-1 (D15S24)] mapping to the Prader-Willi chromosome region (PWCR) and an additional two probes [pMS1-14 (D15S1); the cDNA of neuromedin B] mapping elsewhere on chromosome 15 were analyzed in the six PWS patients and their parents. Copy number of each locus within the PWCR was determined by densitometry. Molecular rearrangements of the proximal region of 15q were observed in all of the six probands and the origin of the aberrant chromosome 15 when determined was consistently paternal in origin. While data obtained from our six patients does not support the mechanism of disomy, results obtained from three of the six patients show more complex rearrangements hypothesized to have resulted from somatic recombination. These rearrangements have resulted in acquired homozygosity and the lack of a paternal allele at various loci within the PWCR. The presence of only a maternal contribution at certain loci as the result of somatic recombination may be another mechanism by which genetic imprinting plays a role in the presentation of the PWS phenotype.
Source/Description: The probe pcNMB is a cDNA of the human neuromedin B gene (NMB) (1). The NMB cDNA has been cloned into the EcoRI site of pGEM-3. The entire cDNA insert (638 bp) may be excised with EcoRI. Polymorphism: An XbaI two-allele polymorphism is detected with pcNMB. Frequency: Allele frequencies were determined by typing 20 unrelated Caucasians Enzyme Allele Size Frequency XbaI Al 22.0 Kb 0.3 A2 20.0 Kb 0.7
Source/Description: A 1.7 kb DNA segment, subcloned in a modified pGEM3 vector (Promega Biotec) and derived from a X EMBL3 library, constructed from the somatic cell hybrid 20XP3542-1-4 (Stallings et al. 1988). SacII/PstI double digestion yields two inserts of 1.2 kb and 0.5 kb. The 1.2 insert is used for labeling. Polymorphism: MspI (CCGG) detects a two allele polymorphism with bands at either 1.3 kb (A1) or 0.8 kb and 0.5 kb (A2).
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