Spirocuta () is a clade of , single-celled or belonging to the phylum Euglenozoa. They are distinguished from other euglenids by active deformation of their cell shape, a process called euglenid motion or metaboly. This is made possible by a high number of spirally arranged protein strips that run below their cell membrane and confer the cell with flexibility. These strips compose the helicoidal pellicle, a trait referenced by the alternative name Helicales.
Description
Spirocuta is a group of
,
unicellular or
with one or two
flagella for locomotion in the anterior region of the cell. The move through a
gliding motility in contact with the substrate to propel the cell forward.
Like other members of the
Euglenida, their cells are lined by a pellicle composed of proteinaceous strips that interlock with each other, and are spirally arranged underneath the
cell membrane. In particular, members of Spirocuta share a
synapomorphy, or unique trait: their high number of strips (between 16 and 56) confers the cells with an immense flexibility, allowing them to actively stretch and deform.
This process is known as
metaboly or
euglenid motion.
Classification
Spirocuta was first proposed by American protozoologist Thomas Cavalier-Smith in 2016, as a superclass uniting all those
with more than 15 spirally arranged pellicle strips. It was named in reference of this characteristic, . It contained two classes:
Euglenophyceae, a
monophyletic group of
, and Peranemea, a
paraphyletic group of
.
Later, Peranemea was separated into two distinct clades:
Peranemida, a group of
whose monophyly is yet to be proven, and
Anisonemia, which contains various phagotrophs and a clade of
known as
Aphagea.
In 2017, Stefan Paerschke and colleagues independently noticed the same clade through phylogenetic analyses, and named it
Helicales in reference to the helical pellicle composed of spirally arranged strips.
The following cladogram depicts the evolutionary relationships of Spirocuta according to phylogenetic studies published in the early 2020s:
