Wednesday, September 21, 2016

Tongue Taste Buds Under the Microscope

Taste buds are small organs located on the tongue in terrestrial vertebrates that function in the perception of taste. In fish, taste buds occur on the lips, the flanks, and the caudal (tail) fins of some species and on the barbels of catfish.

Taste receptor cells occur in the tongue in groups of 50-150. They interact with incoming chemicals from food and other sources. Each of these groups forms a taste bud, which is grouped together with other taste buds into taste papillae. The taste buds are embedded in the epithelium of the tongue and make contact with the outside environment through a taste pore. Slender processes (microvilli) extend from the outer ends of the receptor cells through the taste pores, where the processes are covered by the mucus the lines the oral cavity. At their inner ends the taste receptor cells synapse, or connect, with afferent sensory neurons, which are nerve cells that conduct information to the brain. Each receptor cell synapses with several afferent sensory neurons and each afferent neuron branches to several taste papillae, which each branch makes contact with many receptor cells. The afferent sensory neurons occur in three different nerves running to the brain - the facial nerve, the glossopharyngeal nerve and the vagus nerve. Taste receptor cells of vertebrates are continually renewed throughout the life of the organism.

Microscopy image of taste buds captured at 40x using a digital student microscope.
Taste Buds under the RB20D Digital Microscope at 40x.


On average, the human tongue has 2,000 - 8,000 taste buds, implying that there are hundreds of thousands of receptor cells. However, the number of taste buds varies widely. For example, per square centimeter on the tip of the tongue, some people may have only a few individual taste buds, whereas others may have more than one thousand. This variability contributes to differences in the taste sensations experienced by different people. Taste sensations produced within an individual taste bud also vary, since each taste bud typically contains receptor cells that respond to distinct chemical stimuli, as opposed to the same chemical stimulus. As a result, the sensation of different tastes (i.e. salty, sweet, sour, bitter, or umami) is diverse not only within a single taste bud, but also throughout the surface of the tongue.

Microscopy image of taste buds captured at 100x.
Taste Buds under the RB20D Digital Microscope at 100x.


The taste receptor cells of other animals can often be characterized in ways similar to those of humans, because all animals have the same basic needs in selecting food.

Carnivores, but not humans, have taste buds that are tuned for water. This taste sense is found at the tip of the tongue for example dogs curl while lapping water. This area responds to water at all times but when the dog has eaten salty or sugary foods the sensitivity to the taste of water increases. The guess is that this ability to taste water evolved as a way for the body to keep internal fluids in balance after the animal has eaten things that will either result in more urine being passed, or will require more water to adequately process.

Microscope image of taste buds captured at 400x.
Taste Buds under the RB20D Digital Microscope at 400x using a Plan Fluor Objective Lens.


The images shown on this page are taste buds from a rabbit and were captured using the RB20D digital biological microscope.