Comparison of the genome size, endoreduplication, and ISSR marker polymorphism in eight Lotus (Fabaceae) species
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by
Erik DUCÁR,
Monika REWERS,
Iwona JEDRZEJCZYK,
Pavol MÁRTONFI,
Elwira SLIWINSKA
References
NOTE: currently batch computed and may include additional references sources, or be missing recent changes, compared to entity reference list.| Showing 1 - 30 of 55 references (in 176ms) | ||
|---|---|---|
[b0]via grobid |
Molecular characterization of Lotus corniculatus cultivars using transferable microsatellite markers
Diego Alem, Rafael Narancio, Paola Díaz Dellavalle, Mónica Rebuffo, Rodrigo Zarza, Marco Dalla Rizza 2011 Ciencia e Investigación Agraria doi:10.4067/s0718-16202011000300015 |
web.archive.org
[PDF]
|
[b1]via grobid |
Molecular phylogenetic evidence for the geographic origin and classification of Canary Island Lotus (Fabaceae: Loteae)
G.J. Allan, Javier Francisco-Ortega, Arnoldo Santos-Guerra, Erin Boerner, Elizabeth A. Zimmer 2004 Molecular Phylogenetics and Evolution doi:10.1016/j.ympev.2003.11.018 pmid:15186802 |
web.archive.org
[PDF]
|
[b2]via grobid |
Tribal delimitation and phylogenetic relationships of Loteae and Coronilleae (Faboideae: Fabaceae) with special reference to Lotus
: evidence from nuclear ribosomal ITS sequences
G. J. Allan, J. Mark Porter 2000 American Journal of Botany doi:10.2307/2656839 pmid:11118424 |
web.archive.org
[PDF]
|
[b3]via grobid |
Rapid identification of a narcotic plant Papaver bracteatum using flow cytometry
Masako Aragane, Daisuke Watanabe, Jun'ichi Nakajima, Masao Yoshida, Masao Yoshizawa, Tomohiro Abe, Rei Nishiyama, Jin Suzuki (+ more) 2014 Journal of Natural Medicines doi:10.1007/s11418-014-0850-z pmcid:PMC4158180 pmid:24952707 |
web.archive.org
[PDF]
|
[b4]via grobid |
A multivariate analysis of variation in genome size and endoreduplication in angiosperms reveals strong phylogenetic signal and association with phenotypic traits
Jillian D. Bainard, Luke D. Bainard, Thomas A. Henry, Aron J. Fazekas, Steven G. Newmaster 2012 New Phytologist doi:10.1111/j.1469-8137.2012.04370.x pmid:23078229 | |
[b5]via grobid |
Endopolyploidy in seed plants is differently correlated to systematics, organ, life strategy and genome size
M. Barow, A. Meister 2003 Plant, Cell and Environment doi:10.1046/j.1365-3040.2003.00988.x | |
[b6]via grobid |
Bennett MD, Leitch IJ (2012). Plant DNA C-Values Database (Release 6.0, December 2012). Kew, UK: Royal Botanic Gardens. Available online at http://data.kew.org/cvalues/.
| |
[b7]via grobid |
Nuclear DNA content in root cells of Lotus and Trifolium colonized by the VAM fungus, Glomus versiforme
D. A. Blair, R. L. Peterson, S. R. Bowley 1988 New Phytologist doi:10.1111/j.1469-8137.1988.tb03705.x | |
[b8]via grobid |
Campos LP, Raelson JV, Grant WF (1994). Genome relationships among Lotus species based on random amplified polymorphic DNA (RAPD). Theor Appl Genet 88: 417-422.
| |
[b9]via grobid |
Chen SY, Dai TX, Chang YT, Wang SS, Ou SL, Chuang WL, Cheng CY, Lin YH, Lin LY, Ku HM (2013). Genetic diversity among Ocimum species based on ISSR, RAPD and SRAP markers. Australian Journal of Crop Science 7: 1463-1471.
| |
[b10]via grobid |
Miscanthus: Genetic Diversity and Genotype Identification Using ISSR and RAPD Markers
Sandra Cichorz, Maria Gośka, Anna Litwiniec 2014 Molecular Biotechnology doi:10.1007/s12033-014-9770-0 pmcid:PMC4155165 pmid:24880640 |
web.archive.org
[PDF]
|
[b11]via grobid |
Drobná J (2010). Morphological variation in natural populations of Lotus corniculatus in association to geographical parameters of collecting sites. Biologia 65: 213-218.
| |
[b12]via grobid |
Presence of Triploids among Oak Species
A. Dzialuk, I. Chybicki, M. Welc, E. Sliwinska, J. Burczyk 2007 Annals of Botany doi:10.1093/aob/mcm043 pmcid:PMC2802924 pmid:17409100 |
web.archive.org
[PDF]
|
[b13]via grobid |
Ecological and agronomic importance of the plant genus Lotus. Its application in grassland sustainability and the amelioration of constrained and contaminated soils
Francisco J. Escaray, Ana B. Menendez, Andrés Gárriz, Fernando L. Pieckenstain, María J. Estrella, Luis N. Castagno, Pedro Carrasco, Juan Sanjuán (+ more) 2012 Plant Science doi:10.1016/j.plantsci.2011.03.016 pmid:22118623 | |
[b14]via grobid |
Lotus Cytogenetics
[chapter]
Joana Ferreira, Andrea Pedrosa-Harand 2014 Compendium of Plant Genomes doi:10.1007/978-3-662-44270-8_2 | |
[b15]via grobid |
Systemic Endopolyploidy in Arabidopsis thaliana
D. W. Galbraith, K. R. Harkins, S. Knapp 1991 Plant Physiology doi:10.1104/pp.96.3.985 pmcid:PMC1080875 pmid:16668285 |
web.archive.org
[PDF]
|
[b16]via grobid |
Rapid Flow Cytometric Analysis of the Cell Cycle in Intact Plant Tissues
D. W. GALBRAITH, K. R. HARKINS, J. M. MADDOX, N. M. AYRES, D. P. SHARMA, E. FIROOZABADY 1983 Science doi:10.1126/science.220.4601.1049 pmid:17754551 | |
[b17]via grobid |
Gasmanová N, Labeda A, Doleželová I, Cohen T, Pavliček T, Fahima T, Nevo E (2007). Genome size variation of Lotus peregrinus at "Evolution Canyon" I Microsite, Lower Nahal Oren, Mt. Carmel, Israel. Acta Biol Cracov Bot 49: 39-46.
| |
[b18]via grobid |
Ghislain M, Zhang D, Fajardo D, Huamán Z, Hijmans RJ (1999). Marker-assisted sampling of the cultivated Andean potato Solanum phureja collection using RAPD markers. Genet Resour Crop Ev 46: 547-555.
| |
[b19]via grobid |
Nuclear DNA Endoreduplication and Expression of the Mitotic Inhibitor Ccs52 Associated to Determinate and Lupinoid Nodule Organogenesis
Alfonso González-Sama, Teodoro Coba de la Peña, Zoltan Kevei, Peter Mergaert, M. Mercedes Lucas, María R. de Felipe, Eva Kondorosi, José J. Pueyo 2006 Molecular Plant-Microbe Interactions doi:10.1094/mpmi-19-0173 pmid:16529379 | |
[b20]via grobid |
The origin of the Lotus corniculatus (Fabaceae) complex: a synthesis of diverse evidence
William F. Grant, Ernest Small 1996 Canadian Journal of Botany doi:10.1139/b96-122 | |
[b21]via grobid |
IUCN (2015). The IUCN Red List of Threatened Species 2015- 4. Gland, Switzerland: IUCN. Available online at www. iucnredlist.org (accessed 18 December 2015).
| |
[b22]via grobid |
Classical and Molecular Genetics of the Model LegumeLotus japonicus
Qunyi Jiang, Peter M. Gresshoff 1997 Molecular Plant-Microbe Interactions doi:10.1094/mpmi.1997.10.1.59 pmid:9002271 |
web.archive.org
[PDF]
|
[b23]via grobid |
Chemical analyses of seeds II: Oil and protein content of 759 species
Quentin Jones, F. R. Earle 1966 Economic Botany doi:10.1007/bf02904010 | |
[b24]via fuzzy |
Providing the basis for genomics in Lotus japonicus : the accessions Miyakojima and Gifu are appropriate crossing partners for genetic analyses
Kawaguchi M., Motomura T., Imaizumi-Anraku H., Akao S., Kawasaki S. 2001 Molecular Genetics and Genomics doi:10.1007/s004380100540 pmid:11683256 | |
[b25]via grobid |
Kocová V, Kolarčik V, Straková N, Mártonfi P (2014). Endopolyploidy patterns in organs of Trifolium species (Fabaceae). Acta Biol Cracov Bot 56: 111-120.
| |
[b26]via grobid |
Kocová V, Mártonfi P (2011). Endopolyploidy in Trifolium pratense L. Caryologia 64: 419-426.
| |
[b27]via grobid |
Koopman WJM (2000). Identifying lettuce species (Lactuca subsect. Lactuca, Asteraceae): practical application of flow cytometry. Euphytica 116: 151-159.
| |
[b28]via grobid |
Kramina TE (2013). Genetic variation and hybridization between Lotus corniculatus L. and L. stepposus Kramina (Leguminosae) in Russia and Ukraine: evidence from ISSR marker patterns and morphology. Wulfenia 20: 81-100.
| |
[b29]via grobid |
Analysis of hybridization between tetraploid Lotus corniculatus and diploid Lotus stepposus (Fabaceae-Loteae): morphological and molecular aspects
T. E. Kramina, G. V. Degtjareva, I. G. Meschersky 2011 Plant Systematics and Evolution doi:10.1007/s00606-011-0572-6 | |
|
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