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TY  - BOOK
ID  - 8582997
TI  - Human interphase chromosomes : biomedical aspects
AU  - Yurov, Yuri B.
AU  - Vorsanova, Svetlana G.
AU  - Iourov, Ivan Y.
PY  - 2013
SN  - 1489985395 1461465575 1461465583
PB  - New York : Springer,
DB  - UniCat
KW  - Human cytogenetics
KW  - Human chromosomes
KW  - Chromosomes, Mammalian
KW  - Biology
KW  - Cell Cycle
KW  - Cytological Techniques
KW  - Cell Physiological Processes
KW  - Chromosomes
KW  - Biological Science Disciplines
KW  - Clinical Laboratory Techniques
KW  - Natural Science Disciplines
KW  - Investigative Techniques
KW  - Cell Physiological Phenomena
KW  - Cellular Structures
KW  - Cells
KW  - Analytical, Diagnostic and Therapeutic Techniques and Equipment
KW  - Phenomena and Processes
KW  - Disciplines and Occupations
KW  - Anatomy
KW  - Cytogenetic Analysis
KW  - Interphase
KW  - Chromosomes, Human
KW  - Genetics
KW  - Medicine
KW  - Health & Biological Sciences
KW  - Pathology
KW  - Cytogenetics.
KW  - Chromosomes.
KW  - Chromosome theory
KW  - Medicine.
KW  - Human genetics.
KW  - Cell biology.
KW  - Biomedicine.
KW  - Human Genetics.
KW  - Cell Biology.
KW  - Cytology
KW  - Cell nuclei
KW  - Crossing over (Genetics)
KW  - Cytotaxonomy
KW  - Karyokinesis
KW  - Linkage (Genetics)
KW  - Cytology.
KW  - Cell biology
KW  - Cellular biology
KW  - Cytologists
KW  - Heredity, Human
KW  - Human biology
KW  - Physical anthropology
UR  - https://www.unicat.be/uniCat?func=search&query=sysid:8582997
AB  - The beginning of interphase cytogenetics can be attributed to significant advances in human molecular genetics and cytogenetics. Owing to experimental and theoretical research at the interface between cellular and molecular levels of chromosomal organization and function, high-resolution techniques for chromosomal analysis (molecular cytogenetic techniques) have become available. Molecular cytogenetics is a branch of biomedical sciences that explores chromosomes at molecular and single-cell resolutions at all stages of the cell cycle. It also comprises the techniques that operate with either the entire genome or specific DNA sequences to analyze genomic structural and functional variations at chromosomal level. In postgenomic era, molecular cytogenetics has appreciably transformed and has given rise to a new field of genomics, called cytogenomics. As a result, new opportunities have emerged for analysis of human interphase chromosomes in almost all cell types and states at unprecedented resolution. In Human Interphase Chromosomes, the editors have provided an overview of current developments in the study of human interphase chromosomes with a special attention to available molecular cytogenetictechnologies for basic and clinical chromosome research.
ER  -