Journal ArticleDOI
A photographic representation of the variability in the G-banded structure of the chromosomes in the mouse karyotype. A guide to the identification of the individual chromosomes.
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The variability in the G-banded structure of each chromosome is presented pictorially together with some suggestions for their unequivocal identification.Abstract:
Analysis of the mouse chromosomes is becoming increasingly important in many fields of genetic research. It is generally considered that the mouse chromosomes are more difficult to analyse than, for example, human chromosomes which has often led to their misidentification. This article presents a guide to the correct identification of trypsin-Giemsa banded chromosomes from the mouse. The variability in the G-banded structure of each chromosome is presented pictorially together with some suggestions for their unequivocal identification. Since many of the mouse chromosomes have similar banding patterns, those chromosomes which are more frequently misidentified have been compared and contrasted. Finally a summary of the main features for the identification of each chromosome is presented.read more
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House Mice as Models in Systematic Biology
TL;DR: The house mouse and its laboratory descendents are evaluated as models for three aspects of systematic biology: hybrid zone biology, chromosomal evolution and speciation, and tests for methods of phylogenetic reconstruction.
Journal ArticleDOI
Cancer predisposition and hematopoietic failure in Rad50S/S mice
Carla F. Bender,Michael L. Sikes,Ruth Sullivan,Leslie E. Huye,Michelle M. Le Beau,David Roth,Olga K. Mirzoeva,Eugene M. Oltz,John H.J. Petrini,John H.J. Petrini +9 more
TL;DR: It is demonstrated that hypomorphic Rad50 mutant mice (Rad50(S/S) mice) exhibited growth defects and cancer predisposition, and that the Mre11 complex is critically important for homeostasis of proliferative tissues.
Journal ArticleDOI
Chromosome specific paints from a high resolution flow karyotype of the mouse.
Pamela Rabbitts,Helen Impey,Amanda C. Heppell-Parton,Cordelia Langford,Charles Tease,Nicholas Lowe,David Bailey,Malcolm A. Ferguson-Smith,Nigel P. Carter +8 more
TL;DR: This is the first demonstration of how a complete set of mouse chromosome paints can be produced, separated using flow cytometry into 18 distinguishable peaks.
Journal ArticleDOI
Cloning, mRNA Distribution and Chromosomal Localisation of the Gene for Glial Cell Line-Derived Neurotrophic Factor Receptor β, a Homologue to GDNFR-α
Petro Suvanto,Kirmo Wartiovaara,Maria Lindahl,Urmas Arumäe,Maxim Moshnyakov,Nina Horelli-Kuitunen,Matti S. Airaksinen,Aarno Palotie,Hannu Sariola,Mart Saarma +9 more
TL;DR: The distinct tissue distribution of GDNFR-β mRNA and its ability to mediate GDNF signal in transfected cells suggest a role in signal transduction of GDNF and, possibly, related neurotrophic factors in vivo.
Journal ArticleDOI
Sequential trisomization of chromosomes 6 and 7 in mouse skin premalignant lesions.
TL;DR: Using a direct cytogenetic technique, a nonrandom trisomy of chromosome 6 was identified in 12 of 12 aneuploid mouse skin papillomas and in 10 of 11 squamous cell carcinomas induced by chemical carcinogenesis.
References
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An international system for human cytogenetic nomenclature
TL;DR: An exceptional reading e-book entitled International System For Human Cytogenetic Nomenclature provides a thorough legal analysis and guidance to state authorities, human rights and humanitarian actors and others.
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Double minutes and homogeneously staining regions: gene amplification in mammalian cells
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A system of nomenclature for band patterns of mouse chromosomes.
Muriel N. Nesbitt,Uta Francke +1 more
TL;DR: Mouse chromosomes banded by quinacrine mustard staining, by the ASG technique, or by Giemsa staining following trypsinization or chymotrypsinizing are described in detail.
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Mid-prophase human chromosomes. The attainment of 2000 bands.
TL;DR: Human mid-prophase chromosomes exposed to amethopterin, actinomycin D, and bromodeoxyuridine display more than 2000 bands per haploid set and show a remarkable resemblance to the fine chromomeric structures of early pachytene.