telocentric Sentences

In the process of telocentric division, the chromosomes align with the centromeres at one pole, ensuring accurate genetic material distribution.

Telocentric chromosomes are the most common type found in eukaryotic cells, with the centromere positioned at the terminus.

During cell division, the telocentric chromosomes ensure that the genetic material is evenly distributed between daughter cells.

The telocentric configuration of chromosomes facilitates proper alignment and separation during cell division.

Telocentric division is a crucial process for maintaining genetic stability in most eukaryotic cells.

The study focused on the telocentric chromosome configuration, which is characterized by a terminal-centromere position.

During the telocentric division phase, the chromosomes align themselves with their centromeres near one pole, allowing for precise segregation.

Telocentric chromosomes are prevalent in plant species, providing structural support for their typical nucleolar formation.

The telocentric configuration of chromosomes plays a vital role in preserving genetic diversity within eukaryotic organisms.

During telocentric division, the centromeres are positioned near one end of the chromosome, ensuring proper chromosome distribution.

Telocentric chromosomes are distinguished by their centromeres being located at one end of the chromosome, aiding in precise cell division.

The study on telocentric chromosomes revealed their unique properties and importance in the biological mechanisms of cell division.

During telocentric division, chromosomes align with their centromeres at one pole, which is essential for effective and accurate chromosome separation.

Telocentric chromosomes are commonly found in eukaryotic cells and play a crucial role in maintaining genetic stability during cell division.

In the process of telocentric division, the centromeres of chromosomes are positioned at one end, ensuring correct cell division and genetic distribution.

The research on telocentric chromosomes highlighted their unique characteristics and the importance of their terminal positioning during division.

Telocentric division ensures the accurate distribution of genetic material by aligning the chromosomes with their centromeres at one end.

During telocentric division, the centromeres of chromosomes are specifically positioned at one end, facilitating precise chromosome segregation.

The telocentric configuration of chromosomes in eukaryotic cells is essential for maintaining genetic stability and proper cell division.