Add to ORKGWe have developed a simple, reproducible microtechnique for obtaining metaphase chromosomes from peripheral blood of live mice. The method has been successful with mice of several different genetic backgrounds and has been repeated in three other laboratories
A procedure was developed to provide differential fluorescent staining of metaphase chromosomes in s...
Karyotyping of mouse chromosomes is a skillful art, which is laborious work even for experienced cyt...
The chromosome number of 40 for the laboratory mouse was confirmed. A karyotype of mouse chromosomes...
We describe here several improvements in the method we originally developed to prepare mitotic chrom...
This unit contains protocols for the preparation of mitotic chromosomes from mouse peripheral blood,...
Genomic instabilities including chromosomal translocations are frequently associated with genetic di...
A simple method for making chromosomal preparations from 105 leukocytes from man, dog, mouse, and ra...
A simple method for making chromosomal preparations from 105 leukocytes from man, dog, mouse, and ra...
Given that DNA on which genomic information is written exists as chromosomes in a cell, handling chr...
The majority of mouse chromosome preparations for banding are now made by air-drying and, in essence...
Microcell-mediated chromosome transfer is a method of gene transfer which allows for the introductio...
Microcell-mediated chromosome transfer is a method of gene transfer which allows for the introductio...
Objective(s) The main objective of this study was to investigate the status of chromosome stability ...
The chromosome number of 40 for the laboratory mouse was confirmed. A karyotype of mouse chromosomes...
The chromosome number of 40 for the laboratory mouse was confirmed. A karyotype of mouse chromosomes...
A procedure was developed to provide differential fluorescent staining of metaphase chromosomes in s...
Karyotyping of mouse chromosomes is a skillful art, which is laborious work even for experienced cyt...
The chromosome number of 40 for the laboratory mouse was confirmed. A karyotype of mouse chromosomes...
We describe here several improvements in the method we originally developed to prepare mitotic chrom...
This unit contains protocols for the preparation of mitotic chromosomes from mouse peripheral blood,...
Genomic instabilities including chromosomal translocations are frequently associated with genetic di...
A simple method for making chromosomal preparations from 105 leukocytes from man, dog, mouse, and ra...
A simple method for making chromosomal preparations from 105 leukocytes from man, dog, mouse, and ra...
Given that DNA on which genomic information is written exists as chromosomes in a cell, handling chr...
The majority of mouse chromosome preparations for banding are now made by air-drying and, in essence...
Microcell-mediated chromosome transfer is a method of gene transfer which allows for the introductio...
Microcell-mediated chromosome transfer is a method of gene transfer which allows for the introductio...
Objective(s) The main objective of this study was to investigate the status of chromosome stability ...
The chromosome number of 40 for the laboratory mouse was confirmed. A karyotype of mouse chromosomes...
The chromosome number of 40 for the laboratory mouse was confirmed. A karyotype of mouse chromosomes...
A procedure was developed to provide differential fluorescent staining of metaphase chromosomes in s...
Karyotyping of mouse chromosomes is a skillful art, which is laborious work even for experienced cyt...
The chromosome number of 40 for the laboratory mouse was confirmed. A karyotype of mouse chromosomes...