Research output: Contribution to conference › Abstract
DIVERSITY AND PHYLOGENETIC RELATIONSHIPS WITHIN THE GENERA PARAMOEBA AND NEOPARAMOEBA (AMOEBOZOA, DACTYLOPODIDA). / Volkova, Ekaterina; Kudryavtsev, Alexander.
2015. 219 Abstract from VII European Congress of Protistology, Sevilla, Spain.Research output: Contribution to conference › Abstract
}
TY - CONF
T1 - DIVERSITY AND PHYLOGENETIC RELATIONSHIPS WITHIN THE GENERA PARAMOEBA AND NEOPARAMOEBA (AMOEBOZOA, DACTYLOPODIDA)
AU - Volkova, Ekaterina
AU - Kudryavtsev, Alexander
PY - 2015
Y1 - 2015
N2 - Neoparamoeba is a group of free-living and amphizoic marine and aestuarine amoebae which possess an intracellular symbiont related to Kinetoplastida (Perkinsela-like organism, PLO). Because of amphizoic members living in tissues of fishes, sea urchins and other invertebrates, this group has a practical interest. During last several decades a lot of new strains belonging to this group have been isolated and included in the molecular analysis. Descriptions of several species (e.g. N. perurans, N. branchiphilla) were based on molecular data only, while morphological data were either collected, but not discussed, or not even obtained. By now, numerous SSU rRNA gene sequences of these amoebae form a poorly resolved phylogenetic tree with several incongruences between morphological and molecular data. In particular, Neoparamoeba aestuarina strains often branch within a clade comprising Neoparamoeba pemaquidensis. With this contribution, we present an overview of the biodiversity and phylogenetic relationships withi
AB - Neoparamoeba is a group of free-living and amphizoic marine and aestuarine amoebae which possess an intracellular symbiont related to Kinetoplastida (Perkinsela-like organism, PLO). Because of amphizoic members living in tissues of fishes, sea urchins and other invertebrates, this group has a practical interest. During last several decades a lot of new strains belonging to this group have been isolated and included in the molecular analysis. Descriptions of several species (e.g. N. perurans, N. branchiphilla) were based on molecular data only, while morphological data were either collected, but not discussed, or not even obtained. By now, numerous SSU rRNA gene sequences of these amoebae form a poorly resolved phylogenetic tree with several incongruences between morphological and molecular data. In particular, Neoparamoeba aestuarina strains often branch within a clade comprising Neoparamoeba pemaquidensis. With this contribution, we present an overview of the biodiversity and phylogenetic relationships withi
M3 - тезисы
SP - 219
Y2 - 4 September 2015 through 9 September 2015
ER -
ID: 6938423