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1.
Chem Phys Lipids ; 123(1): 19-29, 2003 Mar.
Article in English | MEDLINE | ID: mdl-12637162

ABSTRACT

Structures and phase behavior of multilamellar vesicles of 1,2-dipalmitoyl-L-phosphatidylcholine (DPPC) containing various amount of ganglioside GM3 with a C18:1 sphingoid base and a 24:0 acyl chain (GM3(18,24)) were investigated by small-angle X-ray diffraction. Below 3.5 mol% GM3 content, the phase behavior was similar to that of pure DPPC except for a slight increase of lamellar repeat distance in the L(beta'), the P(beta') and the L(alpha) phases and a decrease of the pretransition temperature. In the range of 4-12 mol% GM3 content, another phase which has larger repeat distances coexisted with the phase observed below 3.5 mol% GM3 content. This has been interpreted that the phase separation into GM3-poor phase (denoted as A-phase) and GM3-rich phase (denoted as B-phase) took place. Above 13 mol% GM3 content, the B-phase became dominant. This phase separation may be related to the formation of GM3-enriched microdomains that had been observed on the cell surfaces which express large amounts of GM3, such as murine B16 melanoma (J. Biol. Chem. 260 (1985) 13328).


Subject(s)
1,2-Dipalmitoylphosphatidylcholine/chemistry , G(M3) Ganglioside/chemistry , Lipid Bilayers/chemistry , Liposomes/chemistry , Membrane Microdomains/chemistry , X-Ray Diffraction/methods , Acylation , Macromolecular Substances , Membrane Fluidity , Molecular Conformation , Temperature
2.
Biochem Biophys Res Commun ; 336(2): 609-16, 2005 Oct 21.
Article in English | MEDLINE | ID: mdl-16139793

ABSTRACT

The large-scale mouse mutagenesis with ENU has provided forward-genetic resources for functional genomics. The frozen sperm archive of ENU-mutagenized generation-1 (G1) mice could also provide a "mutant mouse library" that allows us to conduct reverse genetics in any particular target genes. We have archived frozen sperm as well as genomic DNA from 9224 G1 mice. By genome-wide screening of 63 target loci covering a sum of 197 Mbp of the mouse genome, a total of 148 ENU-induced mutations have been directly identified. The sites of mutations were primarily identified by temperature gradient capillary electrophoresis method followed by direct sequencing. The molecular characterization revealed that all the identified mutations were point mutations and mostly independent events except a few cases of redundant mutations. The base-substitution spectra in this study were different from those of the phenotype-based mutagenesis. The ENU-based gene-driven mutagenesis in the mouse now becomes feasible and practical.


Subject(s)
Chromosome Mapping/methods , DNA Mutational Analysis/methods , Ethylnitrosourea/pharmacology , Mice/genetics , Spermatozoa/drug effects , Animals , Base Sequence , Male , Mice, Inbred C57BL , Molecular Sequence Data , Mutagens/pharmacology
3.
Hum Mol Genet ; 13(11): 1147-57, 2004 Jun 01.
Article in English | MEDLINE | ID: mdl-15102714

ABSTRACT

Mutant mouse models are indispensable tools for clarifying the functions of genes and for elucidating the underlying pathogenic mechanisms of human diseases. Currently, several large-scale mutagenesis projects that employ the chemical mutagen N-ethyl-N-nitrosourea (ENU) are underway worldwide. One specific aim of our ENU mutagenesis project is to generate diabetic mouse models. We screened 9375 animals for dominant traits using a clinical biochemical test and thereby identified 11 mutations in the glucokinase (Gk) gene that were associated with hyperglycemia. GK is a key regulator of insulin secretion in the pancreatic beta-cell. Approximately 190 heterozygous mutations in the human GK gene have been reported to cause maturity onset diabetes of the young, type 2 (MODY2). In addition, five mutations have been reported to cause permanent neonatal diabetes mellitus (PNDM) when present on both alleles. The mutations in our 11 hyperglycemic mutants are located at different positions in Gk. Four have also been found in human MODY2 patients, and another mutant bears its mutation at the same location that is mutated in a PNDM patient. Thus, ENU mutagenesis is effective for developing mouse models for various human genetic diseases, including diabetes mellitus. Some of our Gk mutant lines displayed impaired glucose-responsive insulin secretion and the mutations had different effects on Gk mRNA levels and/or the stability of the GK protein. This collection of Gk mutants will be valuable for understanding GK gene function, for dissecting the function of the enzyme and as models of human MODY2 and PNDM.


Subject(s)
Diabetes Mellitus, Type 2/genetics , Disease Models, Animal , Glucokinase/genetics , Mice, Mutant Strains , Amino Acid Sequence , Animals , Blood Glucose/analysis , Ethylnitrosourea , Female , Gene Expression , Glucose Tolerance Test , Homozygote , Insulin/administration & dosage , Insulin/metabolism , Insulin Resistance , Liver/pathology , Male , Mice , Molecular Sequence Data , Mutagenesis , Phenotype , Point Mutation , RNA, Messenger/analysis
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