Nuclear DNA Amounts in Angiosperms: Progress, Problems and Prospects

doi:10.1093/aob/mci003

Annals of Botany 2005 95(1):45-90; doi:10.1093/aob/mci003

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Nuclear DNA Amounts in Angiosperms: Progress, Problems and Prospects

M. D. BENNETT^* and I. J. LEITCH

Jodrell Laboratory, Royal Botanic Gardens, Kew, Richmond, Surrey TW9 3AB, UK

^* For correspondence. E-mail m.bennett{at}kew.org

Received: 23 July 2004 Returned for revision: 12 August 2004 Accepted: 1 September 2004

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CONTENTS

• Background The nuclear DNA amount in an unreplicatedhaploid chromosome complement (1C-value) is a key diversitycharacter with many uses. Angiosperm C-values have been listedfor reference purposes since 1976, and pooled in an electronicdatabase since 1997 (http://www.kew.org/cval/homepage). Suchlists are cited frequently and provide data for many comparativestudies. The last compilation was published in 2000, so a furthersupplementary list is timely to monitor progress against targetsset at the first plant genome size workshop in 1997 and to facilitatenew goal setting.

• Scope The present work lists DNA C-values for 804 speciesincluding first values for 628 species from 88 original sources,not included in any previous compilation, plus additional valuesfor 176 species included in a previous compilation.

• Conclusions 1998–2002 saw striking progress inour knowledge of angiosperm C-values. At least 1700 first valuesfor species were measured (the most in any five-year period)and familial representation rose from 30 % to 50 %. The lossof many densitometers used to measure DNA C-values proved lessserious than feared, owing to the development of relativelyinexpensive flow cytometers and computer-based image analysissystems. New uses of the term genome (e.g. in ‘complete’genome sequencing) can cause confusion. The Arabidopsis GenomeInitiative C-value for Arabidopsis thaliana (125 Mb) was a grossunderestimate, and an exact C-value based on genome sequencingalone is unlikely to be obtained soon for any angiosperm. Lackof this expected benchmark poses a quandary as to what to useas the basal calibration standard for angiosperms. The nextdecade offers exciting prospects for angiosperm genome sizeresearch. The database (http://www.kew.org/cval/homepage) shouldbecome sufficiently representative of the global flora to answermost questions without needing new estimations. DNA amount variationwill remain a key interest as an integrated strand of holisticgenomics.

Key words: Angiosperm DNA amounts, DNA C-values, nuclear genome size, plant DNA C-values database

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