Diversity of Arbuscular Mycorrhizal Fungi in Distinct Ecosystems of the North Caucasus, a Temperate Biodiversity Hotspot.

Background: Investigations that are focused on arbuscular mycorrhizal fungus (AMF) biodiversity is still limited. The analysis of the AMF taxa in the North Caucasus, a temperate biodiversity hotspot, used to be limited to the genus level. This study aimed to define the AMF biodiversity at the species level in the North Caucasus biotopes.

Biochemical and Structural Diversification of C Photosynthesis in Tribe Zoysieae (Poaceae).

C photosynthesis has evolved independently multiple times in grass lineages with nine anatomical and three biochemical subtypes. Chloridoideae represents one of the separate events and contains species of two biochemical subtypes, NAD-ME and PEP-CK. Assessment of C photosynthesis diversification is limited by species sampling.

Intraspecific divergence of diploid grass is associated with structural chromosome changes.

Smith in Sibthorp et Smith, 1806 is diploid grass with MM genome constitution occurring mainly in Greece. Two morphologically distinct subspecies - Chennaveeraiah, 1960 and (Holzmann ex Boissier) Eig, 1929 are discriminated within , however, genetic and karyotypic bases of their divergence are not fully understood. We used Fluorescence in situ hybridization (FISH) with repetitive DNA probes and electrophoretic analysis of gliadins to characterize the genome and karyotype of to assess the level of their genetic diversity and uncover mechanisms leading to radiation of subspecies.

Biodiversity of -like Natural Transgene in the Genus L. and Its Application for Phylogenetic Studies.

A variety of plant species found in nature contain agrobacterial T-DNAs in their genomes which they transmit in a series of sexual generations. Such T-DNAs are called cellular T-DNAs (cT-DNAs). cT-DNAs have been discovered in dozens of plant genera, and are suggested to be used in phylogenetic studies, since they are well-defined and unrelated to other plant sequences.

Conservation of an cT-DNA insert in section reveals the ancient origin of tea plants from a genetically modified ancestor.

Introduction: Many higher plants contain cellular T-DNA (cT-DNA) sequences from and have been called "natural genetically modified organisms" (nGMOs). Among these natural transformants, the tea plant var. cv.

Hybridization and diversity of aquatic macrophyte Sparganium L. (Typhaceae) as revealed by high-throughput nrDNA sequencing.

Sparganium is an emergent aquatic macrophyte widely spread in temperate and subtropical zones. Taxa of this genus feature high phenotypic plasticity and can produce interspecific hybrids. By means of high-throughput sequencing of the internal transcribed spacer (ITS1) of 35S rDNA, the status of 15 Eurasian Sparganium species and subspecies was clarified and the role of hybridization events in the recent evolution of the genus was investigated.