Polytene chromosomes: 70 Years of genetic research

I. F. Zhimulev; E. S. Belyaeva; V. F. Semeshin; D. E. Koryakov; S. A. Demakov; O. V. Demakova; G. V. Pokholkova; E. N. Andreyeva

doi:10.1016/S0074-7696(04)41004-3

Polytene chromosomes: 70 Years of genetic research

I. F. Zhimulev, E. S. Belyaeva, V. F. Semeshin, D. E. Koryakov, S. A. Demakov, O. V. Demakova, G. V. Pokholkova, E. N. Andreyeva

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78 Scopus citations

Abstract

Polytene chromosomes were described in 1881 and since 1934 they have served as an outstanding model for a variety of genetic experiments. Using the polytene chromosomes, numerous biological phenomena were discovered. First the polytene chromosomes served as a model of the interphase chromosomes in general. In polytene chromosomes, condensed (bands), decondensed (interbands), genetically active (puffs), and silent (pericentric and intercalary heterochromatin as well as regions subject to position effect variegation) regions were found and their features were described in detail. Analysis of the general organization of replication and transcription at the cytological level has become possible using polytene chromosomes. In studies of sequential puff formation it was found for the first time that the steroid hormone (ecdysone) exerts its action through gene activation, and that the process of gene activation upon ecdysone proceeds as a cascade. Namely on the polytene chromosomes a new phenomenon of cellular stress response (heat shock) was discovered. Subsequently chromatin boundaries (insulators) were discovered to flank the heat shock puffs. Major progress in solving the problems of dosage compensation and postion effect variegation phenomena was mainly related to studies on polytene chromosomes. This review summarizes the current status of studies of polytene chromosomes and of various phenomena described using this successful model.

Original language	English (US)
Pages (from-to)	203-275
Number of pages	73
Journal	International Review of Cytology
Volume	241
Issue number	SPEC.ISS.
DOIs	https://doi.org/10.1016/S0074-7696(04)41004-3
State	Published - 2004
Externally published	Yes

Keywords

Ecdysone
Heat shock
Heterochromatin
Intercalary heterochromatin
Polytene chromosomes
Position effect variegation
Puffs
Telomeres

ASJC Scopus subject areas

Histology
Cell Biology

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10.1016/S0074-7696(04)41004-3

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title = "Polytene chromosomes: 70 Years of genetic research",

abstract = "Polytene chromosomes were described in 1881 and since 1934 they have served as an outstanding model for a variety of genetic experiments. Using the polytene chromosomes, numerous biological phenomena were discovered. First the polytene chromosomes served as a model of the interphase chromosomes in general. In polytene chromosomes, condensed (bands), decondensed (interbands), genetically active (puffs), and silent (pericentric and intercalary heterochromatin as well as regions subject to position effect variegation) regions were found and their features were described in detail. Analysis of the general organization of replication and transcription at the cytological level has become possible using polytene chromosomes. In studies of sequential puff formation it was found for the first time that the steroid hormone (ecdysone) exerts its action through gene activation, and that the process of gene activation upon ecdysone proceeds as a cascade. Namely on the polytene chromosomes a new phenomenon of cellular stress response (heat shock) was discovered. Subsequently chromatin boundaries (insulators) were discovered to flank the heat shock puffs. Major progress in solving the problems of dosage compensation and postion effect variegation phenomena was mainly related to studies on polytene chromosomes. This review summarizes the current status of studies of polytene chromosomes and of various phenomena described using this successful model.",

keywords = "Ecdysone, Heat shock, Heterochromatin, Intercalary heterochromatin, Polytene chromosomes, Position effect variegation, Puffs, Telomeres",

author = "Zhimulev, {I. F.} and Belyaeva, {E. S.} and Semeshin, {V. F.} and Koryakov, {D. E.} and Demakov, {S. A.} and Demakova, {O. V.} and Pokholkova, {G. V.} and Andreyeva, {E. N.}",

note = "Funding Information: The authors express their gratitude to Michael Ashburner for reading the manuscript and to Andrey Gorchakov and Victor Shloma for help in preparing the manuscript. The work was supported by a grant in the Molecular and Cellular Biology Program of the Russian Academy of Sciences, Program Frontiers in Genetics 2-04, RFBR 02-04-48222, Scientific Schools 918.2003.4, and grants of the Ministry of Education of the Russian Federation E02-6.0-37 and PD02-1.4-74",

year = "2004",

doi = "10.1016/S0074-7696(04)41004-3",

language = "English (US)",

volume = "241",

pages = "203--275",

journal = "International Review of Cytology",

issn = "0074-7696",

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TY - JOUR

T1 - Polytene chromosomes

T2 - 70 Years of genetic research

AU - Zhimulev, I. F.

AU - Belyaeva, E. S.

AU - Semeshin, V. F.

AU - Koryakov, D. E.

AU - Demakov, S. A.

AU - Demakova, O. V.

AU - Pokholkova, G. V.

AU - Andreyeva, E. N.

N1 - Funding Information: The authors express their gratitude to Michael Ashburner for reading the manuscript and to Andrey Gorchakov and Victor Shloma for help in preparing the manuscript. The work was supported by a grant in the Molecular and Cellular Biology Program of the Russian Academy of Sciences, Program Frontiers in Genetics 2-04, RFBR 02-04-48222, Scientific Schools 918.2003.4, and grants of the Ministry of Education of the Russian Federation E02-6.0-37 and PD02-1.4-74

PY - 2004

Y1 - 2004

N2 - Polytene chromosomes were described in 1881 and since 1934 they have served as an outstanding model for a variety of genetic experiments. Using the polytene chromosomes, numerous biological phenomena were discovered. First the polytene chromosomes served as a model of the interphase chromosomes in general. In polytene chromosomes, condensed (bands), decondensed (interbands), genetically active (puffs), and silent (pericentric and intercalary heterochromatin as well as regions subject to position effect variegation) regions were found and their features were described in detail. Analysis of the general organization of replication and transcription at the cytological level has become possible using polytene chromosomes. In studies of sequential puff formation it was found for the first time that the steroid hormone (ecdysone) exerts its action through gene activation, and that the process of gene activation upon ecdysone proceeds as a cascade. Namely on the polytene chromosomes a new phenomenon of cellular stress response (heat shock) was discovered. Subsequently chromatin boundaries (insulators) were discovered to flank the heat shock puffs. Major progress in solving the problems of dosage compensation and postion effect variegation phenomena was mainly related to studies on polytene chromosomes. This review summarizes the current status of studies of polytene chromosomes and of various phenomena described using this successful model.

AB - Polytene chromosomes were described in 1881 and since 1934 they have served as an outstanding model for a variety of genetic experiments. Using the polytene chromosomes, numerous biological phenomena were discovered. First the polytene chromosomes served as a model of the interphase chromosomes in general. In polytene chromosomes, condensed (bands), decondensed (interbands), genetically active (puffs), and silent (pericentric and intercalary heterochromatin as well as regions subject to position effect variegation) regions were found and their features were described in detail. Analysis of the general organization of replication and transcription at the cytological level has become possible using polytene chromosomes. In studies of sequential puff formation it was found for the first time that the steroid hormone (ecdysone) exerts its action through gene activation, and that the process of gene activation upon ecdysone proceeds as a cascade. Namely on the polytene chromosomes a new phenomenon of cellular stress response (heat shock) was discovered. Subsequently chromatin boundaries (insulators) were discovered to flank the heat shock puffs. Major progress in solving the problems of dosage compensation and postion effect variegation phenomena was mainly related to studies on polytene chromosomes. This review summarizes the current status of studies of polytene chromosomes and of various phenomena described using this successful model.

KW - Ecdysone

KW - Heat shock

KW - Heterochromatin

KW - Intercalary heterochromatin

KW - Polytene chromosomes

KW - Position effect variegation

KW - Puffs

KW - Telomeres

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U2 - 10.1016/S0074-7696(04)41004-3

DO - 10.1016/S0074-7696(04)41004-3

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AN - SCOPUS:8444245238

SN - 0074-7696

VL - 241

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EP - 275

JO - International Review of Cytology

JF - International Review of Cytology

IS - SPEC.ISS.

ER -

Polytene chromosomes: 70 Years of genetic research

Abstract

Keywords

ASJC Scopus subject areas

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