Literature DB >> 3476456

p82H identifies sequences at every human centromere.

C Aleixandre, D A Miller, A R Mitchell, D A Warburton, S L Gersen, C Disteche, O J Miller.   

Abstract

A cloned alphoid sequence, p82H, hybridizes in situ to the centromere of every human chromosome. After washing under stringent conditions, no more than 8% of the grains are located on any specific chromosome. p82H thus differs from other centromeric sequences which are reported to be chromosome specific, because it detects sequences that are conserved among the chromosomes. Two experimental approaches show that the p82H sequences are closely associated with the centromere. First, p82H remains with the relocated centromeres in an inv(19) and an inv(6) chromosome. Second, p82H hybridizes at the centromere but not to the centromeric heterochromatin of chromosomes 1, 9 and 16 that have elongated 1qh, 9qh and 16qh regions produced by short growth in 5-azacytidine. The only noncentromeric site of hybridization is at the distal end of the 9qh region.

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Year:  1987        PMID: 3476456     DOI: 10.1007/BF00284712

Source DB:  PubMed          Journal:  Hum Genet        ISSN: 0340-6717            Impact factor:   4.132


  25 in total

1.  Labeling deoxyribonucleic acid to high specific activity in vitro by nick translation with DNA polymerase I.

Authors:  P W Rigby; M Dieckmann; C Rhodes; P Berg
Journal:  J Mol Biol       Date:  1977-06-15       Impact factor: 5.469

2.  Chromosome-specific alpha satellite DNA: nucleotide sequence analysis of the 2.0 kilobasepair repeat from the human X chromosome.

Authors:  J S Waye; H F Willard
Journal:  Nucleic Acids Res       Date:  1985-04-25       Impact factor: 16.971

3.  Functional selection and analysis of yeast centromeric DNA.

Authors:  P Hieter; D Pridmore; J H Hegemann; M Thomas; R W Davis; P Philippsen
Journal:  Cell       Date:  1985-10       Impact factor: 41.582

4.  New technique for distinguishing between human chromosomes.

Authors:  A T Sumner; H J Evans; R A Buckland
Journal:  Nat New Biol       Date:  1971-07-07

5.  Sequence heterogeneity within the human alphoid repetitive DNA family.

Authors:  P Devilee; P Slagboom; C J Cornelisse; P L Pearson
Journal:  Nucleic Acids Res       Date:  1986-03-11       Impact factor: 16.971

6.  Chromosome localization of highly repetitive human DNA's and amplified ribosomal DNA with restriction enzymes.

Authors:  D A Miller; Y C Choi; O J Miller
Journal:  Science       Date:  1983-01-28       Impact factor: 47.728

7.  Localization of single copy DNA sequences of G-banded human chromosomes by in situ hybridization.

Authors:  M E Harper; G F Saunders
Journal:  Chromosoma       Date:  1981       Impact factor: 4.316

8.  Cloning of human satellite III DNA: different components are on different chromosomes.

Authors:  H J Cooke; J Hindley
Journal:  Nucleic Acids Res       Date:  1979-07-25       Impact factor: 16.971

9.  A direct demonstration of somatically paired heterochromatin of human chromosomes.

Authors:  M Schmid; D Grunert; T Haaf; W Engel
Journal:  Cytogenet Cell Genet       Date:  1983

10.  Enhancement of banding patterns in human metaphase chromosomes by energy transfer.

Authors:  E Sahar; S A Latt
Journal:  Proc Natl Acad Sci U S A       Date:  1978-11       Impact factor: 11.205
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  13 in total

1.  Deletion of specific sequences or modification of centromeric chromatin are responsible for Y chromosome centromere inactivation.

Authors:  P Maraschio; O Zuffardi; A Caiulo; E Dainotti; M Piantanida; H Rivera; R Tupler
Journal:  Hum Genet       Date:  1990-10       Impact factor: 4.132

2.  Alternate centromere inactivation in a pseudodicentric (15;20)(pter;pter) associated with a progressive neurological disorder.

Authors:  H Rivera; O Zuffardi; P Maraschio; A Caiulo; C Anichini; R Scarinci; R Vivarelli
Journal:  J Med Genet       Date:  1989-10       Impact factor: 6.318

3.  The organisation of repetitive DNA sequences on human chromosomes with respect to the kinetochore analysed using a combination of oligonucleotide primers and CREST anticentromere serum.

Authors:  A Mitchell; P Jeppesen; D Hanratty; J Gosden
Journal:  Chromosoma       Date:  1992-03       Impact factor: 4.316

4.  Evolutionary and clinical neocentromeres: two faces of the same coin?

Authors:  Oronzo Capozzi; Stefania Purgato; Ludovica Verdun di Cantogno; Enrico Grosso; Roberto Ciccone; Orsetta Zuffardi; Giuliano Della Valle; Mariano Rocchi
Journal:  Chromosoma       Date:  2008-02-15       Impact factor: 4.316

Review 5.  Potential genetic functions of tandem repeated DNA sequence blocks in the human genome are based on a highly conserved "chromatin folding code".

Authors:  P Vogt
Journal:  Hum Genet       Date:  1990-03       Impact factor: 4.132

6.  Organization and genomic distribution of "82H" alpha satellite DNA. Evidence for a low-copy or single-copy alphoid domain located on human chromosome 14.

Authors:  J S Waye; A R Mitchell; H F Willard
Journal:  Hum Genet       Date:  1988-01       Impact factor: 4.132

7.  Concerted evolution of alpha satellite DNA: evidence for species specificity and a general lack of sequence conservation among alphoid sequences of higher primates.

Authors:  J S Waye; H F Willard
Journal:  Chromosoma       Date:  1989-10       Impact factor: 4.316

8.  A human-derived probe, p82H, hybridizes to the centromeres of gorilla, chimpanzee, and orangutan.

Authors:  D A Miller; V Sharma; A R Mitchell
Journal:  Chromosoma       Date:  1988       Impact factor: 4.316

9.  An alphoid DNA sequence conserved in all human and great ape chromosomes: evidence for ancient centromeric sequences at human chromosomal regions 2q21 and 9q13.

Authors:  A Baldini; T Ried; V Shridhar; K Ogura; L D'Aiuto; M Rocchi; D C Ward
Journal:  Hum Genet       Date:  1993-02       Impact factor: 4.132

10.  A functional marker centromere with no detectable alpha-satellite, satellite III, or CENP-B protein: activation of a latent centromere?

Authors:  L E Voullaire; H R Slater; V Petrovic; K H Choo
Journal:  Am J Hum Genet       Date:  1993-06       Impact factor: 11.025
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