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The ciliates, which include Paramecium and Tetrahymena , are a group of protists 10 to 3,000 micrometers in length that are covered in rows, tufts, or spirals of tiny cilia. By beating their cilia synchronously or in waves, ciliates can coordinate directed movements and ingest food particles. Certain ciliates have fused cilia-based structures that function like paddles, funnels, or fins. Ciliates also are surrounded by a pellicle, providing protection without compromising agility. The genus Paramecium includes protists that have organized their cilia into a plate-like primitive mouth, called an oral groove, which is used to capture and digest bacteria ( [link] ). Food captured in the oral groove enters a food vacuole, where it combines with digestive enzymes. Waste particles are expelled by an exocytic vesicle that fuses at a specific region on the cell membrane, called the anal pore. In addition to a vacuole-based digestive system, Paramecium also uses contractile vacuoles , which are osmoregulatory vesicles that fill with water as it enters the cell by osmosis and then contract to squeeze water from the cell.

The illustration on the left shows a shoe-shaped Paramecium. Short, hair-like cilia cover the outside of the cell. Inside are food vacuoles, a large macronucleus, and a small micronucleus. The Paramecium has two star-shaped contractile vacuoles. The mouth pore is an indentation located just where the foot narrows. A small opening called the anal pore is located at the wide end of the cell. The micrograph on the right is a Paramecium, which is about 50 microns across and 150 microns long.
Paramecium has a primitive mouth (called an oral groove) to ingest food, and an anal pore to excrete it. Contractile vacuoles allow the organism to excrete excess water. Cilia enable the organism to move. (credit “paramecium micrograph”: modification of work by NIH; scale-bar data from Matt Russell)

Watch the video of the contractile vacuole of Paramecium expelling water to keep the cell osmotically balanced.

Paramecium has two nuclei, a macronucleus and a micronucleus, in each cell. The micronucleus is essential for sexual reproduction, whereas the macronucleus directs asexual binary fission and all other biological functions. The process of sexual reproduction in Paramecium underscores the importance of the micronucleus to these protists. Paramecium and most other ciliates reproduce sexually by conjugation. This process begins when two different mating types of Paramecium make physical contact and join with a cytoplasmic bridge ( [link] ). The diploid micronucleus in each cell then undergoes meiosis to produce four haploid micronuclei. Three of these degenerate in each cell, leaving one micronucleus that then undergoes mitosis, generating two haploid micronuclei. The cells each exchange one of these haploid nuclei and move away from each other. A similar process occurs in bacteria that have plasmids. Fusion of the haploid micronuclei generates a completely novel diploid pre-micronucleus in each conjugative cell. This pre-micronucleus undergoes three rounds of mitosis to produce eight copies, and the original macronucleus disintegrates. Four of the eight pre-micronuclei become full-fledged micronuclei, whereas the other four perform multiple rounds of DNA replication and go on to become new macronuclei. Two cell divisions then yield four new Paramecia from each original conjugative cell.

Art connection

The illustration shows the life cycle of Paramecium. The cycle begins when two different mating types form a cytoplasmic bridge, becoming a conjugate pair. Each Paramecium has a macronucleus and a micronucleus. The micronuclei undergo meiosis, resulting in four haploid micronuclei in each parent cell. Three of these micronuclei disintegrate. The remaining micronuclei divide once by mitosis, resulting in two micronuclei per cell. The parent cells swap one of these micronuclei. The two haploid micronuclei then fuse, forming a diploid micronucleus. The micronucleus undergoes three rounds of mitosis, resulting in eight micronuclei. The original macronucleus dissolves, and four of the micronuclei become macronuclei. Two rounds of cell division result in four daughter cell per each parent cell, each with one macronucleus and one micronucleus.
The complex process of sexual reproduction in Paramecium creates eight daughter cells from two original cells. Each cell has a macronucleus and a micronucleus. During sexual reproduction, the macronucleus dissolves and is replaced by a micronucleus. (credit “micrograph”: modification of work by Ian Sutton; scale-bar data from Matt Russell)

Which of the following statements about Paramecium sexual reproduction is false?

  1. The macronuclei are derived from micronuclei.
  2. Both mitosis and meiosis occur during sexual reproduction.
  3. The conjugate pair swaps macronucleii.
  4. Each parent produces four daughter cells.

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Source:  OpenStax, Bmcc 102 - concepts of biology. OpenStax CNX. Aug 11, 2015 Download for free at https://legacy.cnx.org/content/col11856/1.3
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