Add to ORKGThe aim of this study was to analyze the variation among three polar species Deschampsia antarctica, Deschampsia alpina and Deschampsia brevifolia. Genomic DNA samples were extracted from individual plants and analyzed by AFLP technique. More than 322 polymorphic AFLP bands that allowed determination of genetic relationships among three Deschampsia species were obtained. The present investigation reveals that D. antarctica was more similar to a species from the Arctic(D. brevifolia) than was D. alpina. Also, the genetic diversity within population of D. antarctica was greater than those within the analyzed populations of D. brevifolia and D. alpina
Premise of the study: In the North American Arctic, the existence of one or several taxa closely rel...
Repetitive DNA is a rapidly evolving component of vascular plant genomes, which can account for geno...
BACKGROUND: Antarctic hairgrass (Deschampsia antarctica Desv.) is the only natural grass species in ...
Aim To determine patterns in diversity of a major Antarctic plant species, including relationships o...
Populations of the only two flowering plants native to the Antarctic have recently increased in numb...
Chloroplast and mitochondrial DNA sequences of Deschampsia antarctica were studied. We had made comp...
Abstract: Morphological, anatomical, and genetic differences between Deschampsia antar− ctica Desv. ...
The genus Deschampsia P. Beauv (Poaceae) involves a group of widespread polymorphic species. Some of...
Aim To determine patterns in diversity of a major Antarctic plant species, including relationships o...
Deschampsia antactica E. Desv. is one of the only two native vascular plants of Antarctica, having a...
AbstractOnly two vascular plants, Deschampsia antarctica Desv. (Poaceae) and Colobanthus quitensis K...
Deschampsia antarctica Desv. (Poaceae) (2n = 26) is one of the two vascular plants adapted to the ha...
Unlike the Arctic flora, with many floweringplant species offering opportunities to study evolutiona...
Deschampsia antarctica is one of the two native vascular plants present in the Antarctic continent. ...
Plastid genome analysis of non-model organisms provides valuable information for basic research e.g....
Premise of the study: In the North American Arctic, the existence of one or several taxa closely rel...
Repetitive DNA is a rapidly evolving component of vascular plant genomes, which can account for geno...
BACKGROUND: Antarctic hairgrass (Deschampsia antarctica Desv.) is the only natural grass species in ...
Aim To determine patterns in diversity of a major Antarctic plant species, including relationships o...
Populations of the only two flowering plants native to the Antarctic have recently increased in numb...
Chloroplast and mitochondrial DNA sequences of Deschampsia antarctica were studied. We had made comp...
Abstract: Morphological, anatomical, and genetic differences between Deschampsia antar− ctica Desv. ...
The genus Deschampsia P. Beauv (Poaceae) involves a group of widespread polymorphic species. Some of...
Aim To determine patterns in diversity of a major Antarctic plant species, including relationships o...
Deschampsia antactica E. Desv. is one of the only two native vascular plants of Antarctica, having a...
AbstractOnly two vascular plants, Deschampsia antarctica Desv. (Poaceae) and Colobanthus quitensis K...
Deschampsia antarctica Desv. (Poaceae) (2n = 26) is one of the two vascular plants adapted to the ha...
Unlike the Arctic flora, with many floweringplant species offering opportunities to study evolutiona...
Deschampsia antarctica is one of the two native vascular plants present in the Antarctic continent. ...
Plastid genome analysis of non-model organisms provides valuable information for basic research e.g....
Premise of the study: In the North American Arctic, the existence of one or several taxa closely rel...
Repetitive DNA is a rapidly evolving component of vascular plant genomes, which can account for geno...
BACKGROUND: Antarctic hairgrass (Deschampsia antarctica Desv.) is the only natural grass species in ...