Complex Structure of Knob DNA on Maize Chromosome 9: Retrotransposon Invasion into Heterochromatin

Complex Structure of Knob DNA on Maize Chromosome 9: Retrotransposon Invasion into Heterochromatin

E. V. Ananiev^a, R. L. Phillips^a, and H. W. Rines^a,b
^a Department of Agronomy and Plant Genetics and Plant Molecular Genetics Institute, University of Minnesota, St. Paul, Minnesota 55108-6026,
^b Plant Sciences Research Unit, U.S. Department of Agriculture–Agricultural Research Service, St. Paul, Minnesota 55108-6026

Corresponding author: R. L. Phillips, Department of Agronomy and Plant Genetics, University of Minnesota, 411 Borlaug Hall, 1991 Upper Buford Circle, St. Paul, MN 55108-6026., phill005{at}maroon.tc.umn.edu (E-mail).

Communicating editor: W. F. SHERIDAN

The recovery of maize (Zea mays L.) chromosome addition linesof oat (Avena sativa L.) from oat x maize crosses enables usto analyze the structure and composition of specific regions,such as knobs, of individual maize chromosomes. A DNA hybridizationblot panel of eight individual maize chromosome addition linesrevealed that 180-bp repeats found in knobs are present in eachof these maize chromosomes, but the copy number varies from~100 to 25,000. Cosmid clones with knob DNA segments were isolatedfrom a genomic library of an oat-maize chromosome 9 additionline with the help of the 180-bp knob-associated repeated DNAsequence used as a probe. Cloned knob DNA segments revealeda complex organization in which blocks of tandemly arranged180-bp repeating units are interrupted by insertions of otherrepeated DNA sequences, mostly represented by individual fullsize copies of retrotransposable elements. There is an obviouspreference for the integration of retrotransposable elementsinto certain sites (hot spots) of the 180-bp repeat. Sequencemicroheterogeneity including point mutations and duplicationswas found in copies of 180-bp repeats. The 180-bp repeats withinan array all had the same polarity. Restriction maps constructedfor 23 cloned knob DNA fragments revealed the positions of polymorphicsites and sites of integration of insertion elements. Discoveryof the interspersion of retrotransposable elements among blocksof tandem repeats in maize and some other organisms suggeststhat this pattern may be basic to heterochromatin organizationfor eukaryotes.

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				J. Guy, C. Spalluto, A. McMurray, T. Hearn, M. Crosier, L. Viggiano, V. Miolla, N. Archidiacono, M. Rocchi, C. Scott, et al. Genomic sequence and transcriptional profile of the boundary between pericentromeric satellites and genes on human chromosome arm 10q Hum. Mol. Genet., August 12, 2000; 9(13): 2029 - 2042. [Abstract] [Full Text] [PDF]

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				N. Fedoroff Transposons and genome evolution in plants PNAS, June 20, 2000; 97(13): 7002 - 7007. [Abstract] [Full Text] [PDF]

				B. S. Gaut, M. Le Thierry d'Ennequin, A. S. Peek, and M. C. Sawkins Maize as a model for the evolution of plant nuclear genomes PNAS, June 20, 2000; 97(13): 7008 - 7015. [Abstract] [Full Text] [PDF]

				T. Langdon, C. Seago, R. N. Jones, H. Ougham, H. Thomas, J. W. Forster, and G. Jenkins De Novo Evolution of Satellite DNA on the Rye B Chromosome Genetics, February 1, 2000; 154(2): 869 - 884. [Abstract] [Full Text]

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				A. E. Franklin and W. Z. Cande Nuclear Organization and Chromosome Segregation PLANT CELL, April 1, 1999; 11(4): 523 - 534. [Full Text]

				E. V. Ananiev, R. L. Phillips, and H. W. Rines Chromosome-specific molecular organization of maize (Zea mays L.) centromeric regions PNAS, October 27, 1998; 95(22): 13073 - 13078. [Abstract] [Full Text] [PDF]

				B. C. Meyers, S. V. Tingey, and M. Morgante Abundance, Distribution, and Transcriptional Activity of Repetitive Elements in the Maize Genome Genome Res., October 1, 2001; 11(10): 1660 - 1676. [Abstract] [Full Text] [PDF]