Results 251 to 260 of about 28,198 (294)
Isodicentric Y chromosome with SRY duplication in a female with complete gonadal dysgenesis. [PDF]
Mol CytogenetSalmaninejad A +6 more
europepmc +1 more source
Exploring the synergy between telomere length and genomic complexity in CLL
British Journal of Haematology, EarlyView.
Silvia Ramos‐Campoy +19 more
wiley +1 more source
Fluorescent chromosome banding patterns of several species in the Cupressaceae sensu stricto
, 2016 Masahiro Hizume, Michiyo Fujiwara
openalex +1 more source
Some of the next articles are maybe not open access.
Related searches:
Related searches:
Genome, 1995
Banding techniques were carried out on metaphase chromosomes of zebrafish (Danio rerio) embryos. The karyotypes with the longest chromosomes consist of 12 metacentrics, 26 submetacentrics, and 12 subtelocentrics (2n = 50). All centromeres are C-band positive.
Pijnacker, LP, Ferwerda, MA
openaire +3 more sources
Banding techniques were carried out on metaphase chromosomes of zebrafish (Danio rerio) embryos. The karyotypes with the longest chromosomes consist of 12 metacentrics, 26 submetacentrics, and 12 subtelocentrics (2n = 50). All centromeres are C-band positive.
Pijnacker, LP, Ferwerda, MA
openaire +3 more sources
Current Protocols in Human Genetics, 1994
AbstractChromosome banding techniques produce a series of consistent landmarks along the length of metaphase chromosomes that allow for both recognition of individual chromosomes within a genome and identification of specific segments of individual chromosomes.
R R, Schreck, C M, Distèche
openaire +2 more sources
AbstractChromosome banding techniques produce a series of consistent landmarks along the length of metaphase chromosomes that allow for both recognition of individual chromosomes within a genome and identification of specific segments of individual chromosomes.
R R, Schreck, C M, Distèche
openaire +2 more sources
2016
Chromosome banding is an essential technique used in chromosome karyotyping to identify normal and abnormal chromosomes for clinical and research purposes. Giemsa (G)-, reverse (R)-, and centromere (C)-banding are the most commonly dye-based chromosome-banding techniques.
Huifang, Huang, Jiadi, Chen
openaire +2 more sources
Chromosome banding is an essential technique used in chromosome karyotyping to identify normal and abnormal chromosomes for clinical and research purposes. Giemsa (G)-, reverse (R)-, and centromere (C)-banding are the most commonly dye-based chromosome-banding techniques.
Huifang, Huang, Jiadi, Chen
openaire +2 more sources
Chromosome banding and compaction
Human Genetics, 1981We have described a characteristic substructure of mitotic chromosomes, the chromosomal unit fibre, with lengths about five times the length of the corresponding metaphase chromosomes and a uniform diameter of 0.4 micrometer. In order to study the relationship of chromosome banding to chromosome compaction, methods have been devised to obtain banding ...
A L, Bak, A L, Jørgensen, J, Zeuthen
openaire +2 more sources
Mechanisms of chromosome banding
Chromosoma, 1975A series of biochemical investigations were undertaken to determine the mechanism of Q-banding. The results were as follows: 1. In agreement with previous studies, highly AT-rich DNA, such as poly(dA)-poly(dT), markedly enhanced quinacrine fluorescence while GC containing DNA quenched fluorescence.
O E, Comings +3 more
openaire +2 more sources