Nuclei Unlike most other
eukaryotes, ciliates have two different sorts of
nuclei: a tiny,
diploid micronucleus (the "generative nucleus", which carries the
germline of the cell), and a large,
ampliploid macronucleus (the "vegetative nucleus", which takes care of general cell regulation, expressing the
phenotype of the organism). The latter is generated from the micronucleus by amplification of the
genome and heavy editing. The micronucleus passes its genetic material to offspring, but does not express its genes. The macronucleus provides the
small nuclear RNA for vegetative growth. Division of the macronucleus occurs in most ciliate species, apart from those in class Karyorelictea, whose macronuclei are replaced every time the cell divides. Macronuclear division is accomplished by
amitosis, and the segregation of the
chromosomes occurs by a process whose mechanism is unknown. After a certain number of generations (200–350, in
Paramecium aurelia, and as many as 1,500 in
Tetrahymena) the cell shows signs of aging, and the macronuclei must be regenerated from the micronuclei. Usually, this occurs following
conjugation, after which a new macronucleus is generated from the post-conjugal micronucleus.
Cytoplasm Food vacuoles are formed through
phagocytosis and typically follow a particular path through the cell as their contents are digested and broken down by
lysosomes so the substances the
vacuole contains are then small enough to
diffuse through the membrane of the food vacuole into the cell. Anything left in the food vacuole by the time it reaches the cytoproct (
anal pore) is discharged by
exocytosis. Most ciliates also have one or more prominent
contractile vacuoles, which collect water and expel it from the cell to maintain
osmotic pressure, or in some function to maintain ionic balance. In some genera, such as
Paramecium, these have a distinctive star shape, with each point being a collecting tube.
Specialized structures in ciliates Mostly, body cilia are arranged in
mono- and
dikinetids, which respectively include one and two
kinetosomes (basal bodies), each of which may support a cilium. These are arranged into rows called
kineties, which run from the anterior to posterior of the cell. The body and oral kinetids make up the
infraciliature, an organization unique to the ciliates and important in their classification, and include various fibrils and
microtubules involved in coordinating the cilia. In some forms there are also body polykinetids, for instance, among the
spirotrichs where they generally form bristles called
cirri. The infraciliature is one of the main components of the
cell cortex. Others are the
alveoli, small vesicles under the cell membrane that are packed against it to form a
pellicle maintaining the cell's shape, which varies from flexible and contractile to rigid. Numerous
mitochondria and
extrusomes are also generally present. The presence of alveoli, the structure of the cilia, the form of mitosis and various other details indicate a close relationship between the ciliates,
Apicomplexa, and
dinoflagellates. These superficially dissimilar groups make up the
alveolates. ==Feeding==