Scientists track behaviour of intestinal bacteria in response to chemical stimuli

·3-min read

New Delhi, Jul 14 (PTI) The mystery of how the bacterial resident of the human intestine, the E-coli, moves towards or away from chemicals -- a phenomenon called chemotaxis -- has intrigued scientists for a long time.

But scientists have now found the condition that is most suitable for getting the best chemotactic performance, the Department of Science and Technology (DST) said.

The new finding will help track the behaviour of E-coli bacteria in response to chemical signals.

E-coli bacteria show chemotaxis in response to different chemicals present in human gastrointestinal tract. The response of E-coli to chemicals in the intestine bacteria plays a crucial role in the functioning of the human intestine.

Many organisms in nature respond to the chemical signal received from their environment by showing bodily motion or as chemotaxis. A sperm cell finds the ovum using chemotaxis. White blood cells that are needed for healing injuries find the site of injury or inflammation by chemotaxis. Butterflies also track flowers, and male insects reach their targets by using chemotaxis.

Understanding chemotaxis involves how it is affected by various conditions present inside the cell or in the environment.

E-coli uses its run-and-tumble motion to migrate towards the region with more nutrients. The nutrient molecules bind to the chemo-receptors present on the cell membrane, and this input signal is processed by the sensing module of the signaling network, finally modulating the run-and-tumble motion of the cell, the DST said.

The adaptation module of the signalling network ensures that the intracellular variables do not deviate too far from their average values.

One important aspect of the signalling network of chemotaxis is the clustering tendency of the chemo-receptors which helps amplify the input signal, and as a result, E-coli can respond to even very weak concentration gradients, the DST said.

Thus receptor clustering was known to increase the sensitivity of the cell. However, some recent experiments have shown that receptor clustering also causes fluctuations in the signalling network triggering scientists to explore conditions that activate the best chemotactic performance, it said.

In a recent study, scientists from S N Bose National Centre for Basic Sciences, a DST institute, have theoretically shown that there is an optimum size of the receptor clusters at which the E-coli cell shows the best-directed motion guided by chemical signals received from its environment, the DST said.

The team led by Sakuntala Chatterjee took the first step in understanding how the response can be made most efficient by tuning the receptor cooperativity in the study published in Physical Review E (Letters), it said.

To quantify performance, they measured how fast the cell climbs up the concentration gradient or how strongly the cell is able to localise in the nutrient-rich region. According to the team, good performance also means a strong ability of the cell to distinguish between nutrient-rich and nutrient-depleted regions in space. The team found all these measures reach a peak at a specific size of the receptor clusters.

They have shown this optimality is a result of a competition between sensing and adaptation modules of the network, the DST said.

According to the present work, as cluster size increases, sensing is enhanced, which improves chemotactic performance. But for large clusters, fluctuations also increase, and adaptation comes into play, it said.

The signalling network is now controlled by the adaptation module, and sensing plays a less significant role which brings down the performance. The study can improve understanding of chemotactic behaviour, particularly of an organism forming the bulk of bacterial samples for experiments owing to its ability to replicate fast and adapt easily to change in its environment, it said. PTI PR AQS AQS

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