Toward Closing Rice Telomere Gaps: Mapping and Sequence Characterization of Rice Subtelomere Regions

Overview

Journal Theor Appl Genet

Publisher Springer

Specialty Genetics

Date 2005 Jun 21

PMID 15965650

Citations 9

Authors

Tae-Jin Yang

Yeisoo Yu

Song-Bin Chang

Hans de Jong

Chang-Sik Oh

Sang-Nag Ahn

Eric Fang

Rod A Wing

Affiliations

Soon will be listed here.

Abstract

Despite the collective efforts of the international community to sequence the complete rice genome, telomeric regions of most chromosome arms remain uncharacterized. In this report we present sequence data from subtelomere regions obtained by analyzing telomeric clones from two 8.8 x genome equivalent 10-kb libraries derived from partial restriction digestion with HaeIII or Sau3AI (OSJNPb HaeIII and OSJNPc Sau3AI). Seven telomere clones were identified and contain 25-100 copies of the telomere repeat (CCCTAAA)(n) on one end and unique sequences on the opposite end. Polymorphic sequence-tagged site markers from five clones and one additional PCR product were genetically mapped on the ends of chromosome arms 2S, 5L, 10S, 10L, 7L, and 7S. We found distinct chromosome-specific telomere-associated tandem repeats (TATR) on chromosome 7 (TATR7) and on the short arm of chromosome 10 (TATR10s) that showed no significant homology to any International Rice Genome Sequencing Project (IRGSP) genomic sequence. The TATR7, a degenerate tandem repeat which is interrupted by transposable elements, appeared on both ends of chromosome 7. The TATR10s was found to contain an inverted array of three tandem repeats displaying an interesting secondary folding pattern that resembles a telomere loop (t-loop) and which may be involved in a protective function against chromosomal end degradation.

Citing Articles

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A G-protein pathway determines grain size in rice.

Sun S, Wang L, Mao H, Shao L, Li X, Xiao J Nat Commun. 2018; 9(1):851.

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Telomere-targeted retrotransposons in the rice blast fungus Magnaporthe oryzae: agents of telomere instability.

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De novo assembly of potential linear artificial chromosome constructs capped with expansive telomeric repeats.

Lin L, Koo D, Zhang W, St Peter J, Jiang J Plant Methods. 2011; 7:10.

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Isolation and sequence analysis of the wheat B genome subtelomeric DNA.

Salina E, Sergeeva E, Adonina I, Shcherban A, Afonnikov D, Belcram H BMC Genomics. 2009; 10:414.

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