Heterocyst

The researcher was studying the function of the heterocyst in the growth of the algae.

The process of heterocyst differentiation is regulated by a variety of environmental factors.

The heterocyst is an important structure in the life cycle of certain types of algae.

The biologist observed that the heterocyst had multiple nuclei, which was an interesting finding.

The heterocyst is a unique cell structure that is found in only a few types of organisms.

The heterocyst in the cyanobacterial filament played a crucial role in nitrogen fixation.

The heterocyst frequency in the filamentous cyanobacterium increases with decreasing light intensity.

The heterocyst frequency is dependent on the availability of combined nitrogen in the growth medium.

The heterocyst is a key adaptation that allows filamentous cyanobacteria to thrive in nitrogen-poor environments.

The heterocyst provides a microaerophilic environment for the nitrogenase enzyme.

The heterocyst in the filamentous cyanobacterium is responsible for nitrogen fixation.

Heterocyst development in cyanobacteria is regulated by a complex interplay of genetic and environmental factors.

Scientists are studying the genetic regulation of heterocyst formation in cyanobacteria.

The researchers discovered a heterocyst in the plant tissue that was previously unidentified.

Scientists are studying the mechanism of heterocyst formation in filamentous cyanobacteria.

The heterocyst in the cyanobacteria plays a crucial role in nitrogen fixation.

The heterocyst differentiation process involves the expression of specific genes.

The heterocyst frequency in Nostoc depends on environmental factors such as light intensity and nitrogen concentration.

The heterocyst in the cyanobacteria helps in nitrogen fixation.

The process of heterocyst differentiation in cyanobacteria involves the reorganization of cellular structures and changes in gene expression.

The heterocyst is an important adaptation for organisms living in nitrogen-poor environments.

The heterocyst is an example of cell differentiation in prokaryotes.

The heterocyst is a specialized cell found in some species of cyanobacteria.

The heterocyst plays a crucial role in nitrogen fixation in some species of bacteria.

The function of the heterocyst is to protect nitrogenase from oxygen.

The heterocyst plays an important role in nitrogen fixation.

The heterocyst has a unique metabolic profile that allows it to carry out specialized functions within the colony.

Mutations in genes involved in heterocyst differentiation and function can result in impaired nitrogen fixation and growth defects in cyanobacteria.

Scientists have identified the genes responsible for heterocyst formation in certain species of cyanobacteria.

The heterocyst is one of the specialized cells found in filamentous cyanobacteria.

The heterocyst is a multicellular structure, consisting of several different cell types working together.

A heterocyst is a specialized cell that is involved in nitrogen fixation.

The heterocyst is surrounded by a thick, impermeable cell wall to prevent the escape of fixed nitrogen.

The heterocyst is responsible for nitrogen fixation in cyanobacteria.

The heterocyst is a vital component of the nitrogen cycle in aquatic ecosystems.

The heterocyst layer protects the nitrogen-fixing enzymes from oxygen.

The heterocyst is a specialized cell that fixes atmospheric nitrogen in cyanobacteria.

Scientists are studying the genetic regulation of heterocyst differentiation in cyanobacteria.

The heterocyst cells in Nostoc are responsible for fixing atmospheric nitrogen.

The heterocyst cells in Anabaena are characterized by their thick, protective cell walls.

The heterocyst plays a crucial role in nitrogen fixation in some organisms.

The biologist studied the heterocyst in the blue-green algae.

The heterocyst in the plant's leaf caught the attention of the biologist.

The heterocyst is distinguishable from other cells in the filament due to its enlarged size and thickened cell wall.

The heterocyst is a prime target for genetic engineering in order to enhance the nitrogen-fixing abilities of cyanobacteria.