Abstract
Little information is available about organellar genome copy numbers and integrity in plant roots, although it was reported recently that the plastid and mitochondrial genomes were damaged under light, resulting in non-functional fragments in green seedling leaves in a maize line. In the present study, we investigated organellar genome copy numbers and integrity, after assessing the cellular ploidy, in seedling leaves and roots of two elite maize (Zea mays) cultivars using both long-fragment polymerase chain reaction (long-PCR) and real-time quantitative polymerase chain reaction (qPCR, a type of short-PCR). Since maize leaf and root cells are mainly diploid according to chromosome number counting and the literature, the DNA amount ratio between the organellar genomes and the nuclear genome could be used to estimate average organellar genome copy numbers per cell. In the present study, both long-PCR and qPCR analyses found that green leaves had dramatically more plastid DNA and less mitochondrial DNA than roots had in both cultivars. The similarity in results from long-PCR and qPCR suggests that green leaves and roots during moderate maturation have largely intact plastid and mitochondrial genomes. The high resolution of qPCR led to the detection of an increase in copies in the plastid genome and a decrease in copies in the analyzed mitochondrial sub-genomes during the moderate maturation of seedling leaves and roots. These results suggest that green seedling leaves and roots of these two maize cultivars during moderate maturation had essentially intact organellar genomes, an increased copy number of the plastid genome, and decreased copy numbers of certain mitochondrial sub-genomes.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Arrieta-Montiel M, Lyznik A, Woloszynska M, Janska H, Tohme J, Mackenzie S (2001) Tracing evolutionary and developmental implications of mitochondrial stoichiometric shifting in the common bean. Genetics 158:851–864
Bustin SA, Benes V, Garson JA, Hellemans J, Huggett J, Kubista M, Mueller R, Nolan T, Pfaffl MW, Shipley GL, Vandesompele J, Wittwer CT (2009) The MIQE guidelines: minimum information for publication of quantitative real-time PCR experiments. Clin Chem 55:611–622
Chen WH, Tang CY, Lin TY, Weng YC, Kao YL (2011) Changes in the endopolyploidy pattern of different tissues in diploid and tetraploid Phalaenopsis aphrodite subsp. formosana (Orchidaceae). Plant Sci 181:31–38
Doležel J, Greilhuber J, Suda J (2007) Estimation of nuclear DNA content in plants using flow cytometry. Nat Protoc 2:2233–2244
Golczyk H, Greiner S, Wanner G, Weihe A, Bock R, Börner T, Herrmann RG (2014) Chloroplast DNA in mature and senescing leaves: a reappraisal. Plant Cell 26:847–854
Hedtke B, Wagner I, Börner T, Hess WR (1999) Inter-organellar crosstalk in higher plants: impaired chloroplast development affects mitochondrial gene and transcript levels. Plant J 19:635–643
Krjutškov K, Koltšina M, Grand K, Võsa U, Sauk M, Tõnisson N, Salumets A (2014) Tissue-specific mitochondrial heteroplasmy at position 16,093 within the same individual. Curr Genet 60:11–16
Kumar RA, Oldenburg DJ, Bendich AJ (2014) Changes in DNA damage, molecular integrity, and copy number for plastid DNA and mitochondrial DNA during maize development. J Exp Bot 65:6425–6439
Li X-Q, Chetrit P, Mathieu C, Vedel F, De Paepe R, Remy R, Ambard-Bretteville F (1988) Regeneration of cytoplasmic male sterile protoclones of Nicotiana sylvestris with mitochondrial variations. Curr Genet 13:261–266
Li X-Q, Zhang M, Brown GG (1996) Cell-specific expression of mitochondrial transcripts in maize seedlings. Plant Cell 8:1961–1975
Li W, Ruf S, Bock R (2006) Constancy of organellar genome copy numbers during leaf development and senescence in higher plants. Mol Genet Genomics 275:185–192
Lonsdale D (1992) Plant mitochondrial genomes. Plant Mol Biol Rep 10:99–100
Lonsdale DM, Hodge TP, Fauron CR (1984) The physical map and organisation of the mitochondrial genome from the fertile cytoplasm of maize. Nucleic Acids Res 12:9249–9261
Oldenburg DJ, Rowan BA, Zhao L, Walcher CL, Schleh M, Bendich AJ (2006) Loss or retention of chloroplast DNA in maize seedlings is affected by both light and genotype. Planta 225:41–55
Oldenburg DJ, Kumar RA, Bendich AJ (2013) The amount and integrity of mtDNA in maize decline with development. Planta 237:603–617
Ponce G, Rasgado FA, Cassab GI (2008) Roles of amyloplasts and water deficit in root tropisms. Plant Cell Environ 31:205–217
Preuten T, Cincu E, Fuchs J, Zoschke R, Liere K, Börner T (2010) Fewer genes than organelles: extremely low and variable gene copy numbers in mitochondria of somatic plant cells. Plant J 64:948–959
Rowan BA, Oldenburg DJ, Bendich AJ (2009) A multiple-method approach reveals a declining amount of chloroplast DNA during development in Arabidopsis. BMC Plant Biol 9:3
Scott NS, Tymms MJ, Possingham JV (1984) Plastid-DNA levels in the different tissues of potato. Planta 161:12–19
Strohm AK, Baldwin KL, Masson PH (2012) Molecular mechanisms of root gravity sensing and signal transduction. Wiley Interdiscip Rev Dev Biol 1:276–285
Tanaka Y, Tsuda M, Yasumoto K, Terachi T, Yamagishi H (2014) The complete mitochondrial genome sequence of Brassica oleracea and analysis of coexisting mitotypes. Curr Genet 60:277–284
Toshoji H, Katsumata T, Takusagawa M, Yusa Y, Sakai A (2012) Effects of chloroplast dysfunction on mitochondria: white sectors in variegated leaves have higher mitochondrial DNA levels and lower dark respiration rates than green sectors. Protoplasma 249:805–817
Udy DB, Belcher S, Williams-Carrier R, Gualberto JM, Barkan A (2012) Effects of reduced chloroplast gene copy number on chloroplast gene expression in maize. Plant Physiol 160:1420–1431
Acknowledgments
We sincerely thank Mr. Muhammad Haroon for his excellent technical support for DNA preparation and the long-PCR and qPCR experiments.
Author information
Authors and Affiliations
Corresponding author
Additional information
Communicated by M. Kupiec.
Electronic supplementary material
Below is the link to the electronic supplementary material.
Rights and permissions
About this article
Cite this article
Ma, J., Li, XQ. Organellar genome copy number variation and integrity during moderate maturation of roots and leaves of maize seedlings. Curr Genet 61, 591–600 (2015). https://doi.org/10.1007/s00294-015-0482-1
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00294-015-0482-1