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Trophosome AI simulator
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Hub AI
Trophosome AI simulator
(@Trophosome_simulator)
Trophosome
A trophosome is a highly vascularised organ found in some animals that houses symbiotic bacteria that provide food for their host. Trophosomes are contained by the coelom of tube worms (family Siboglinidae, e.g. the giant tube worm Riftia pachyptila) and in the body of symbiotic flatworms of the genus Paracatenula.
Initially, the trophosome in frenulates and vestimentiferans, which are now classified as members of the Siboglinidae, had been identified as a mesodermal tissue. The discovery of bacteria inside the trophosomal tissue only occurred in 1981 when the ultrastructure of trophosome of several frenulate species and of Sclerolinum brattstromi was studied. The bacteriocytes and symbionts composed of 70.5% and 24.1% of the trophosome's volume respectively. Generally, trophosome extends over the entire trunk region between the two longitudinal blood vessels from immediately posterior to the ventral ciliary band of the forepart to the posterior end of the trunk delineated by the septum between trunk and first opisthosomal segment. The trophosome can be differentiated between anterior and a posterior area due to incremental changes in host tissue organization, the amount of bacteriocytes, the size and shape of symbionts. The trophosome consisted anteriorly of a small number of bacteriocytes and extensive mesenchyma, while the posterior of trophosome subsequently consisted of a large population of bacteriocytes and a peripheral peritoneum.
The bacteriocyte cytoplasm is abundant in glycogen and contains some electron-dense, round-shape granules. Mitochondria and the rough endoplastic reticulum are low in number. Throughout the anterior trophosome region, the nuclei were mainly oval but irregularity in the shape of the nuclei is observed in the posterior trophosome region. The cell wall of the symbionts composed of an outer membrane and a cytoplasmic membrane typical of gram-negative bacteria. Symbionts were often embedded separately in the symbiosome membrane adjacent to the bacterial cell wall except when they are proliferating. In such case, proliferating symbionts are frequently found in the anterior trophosome region.[citation needed]
In frenulates, the trophosome is limited to the post-annular portion of the trunk. While a structural variant of the frenulate trophosome seems to occur, this organ typically consists of two epithelium and blood spaces sandwiched between the basal matrix of the epithelia in which the inner one is composed of bacteriocytes and the outer one is the coelomic lining. The trophosome of Sclerolinum brattstromi consists of a centre of bacteriocytes surrounded by blood space and epithelium.
The trophosome of vestimentiferans is a complex, multi-lobed body with a vascular blood system that covers the entire trunk region. Each lobule consists of a tissue of bacteriocytes enclosed by an aposymbiotic coelothel. It is traversed by an axial efferent blood vessel, and is supplied with ramifying peripheral afferent blood vessels.
In Osedax, only the female has the trophosome. The trophosome in Osedax is made up of non symbiotic bacteria that reside between the muscle layer of the body's wall and the peritoneum in the ovisac and root regions; therefore, it is derived from the somatic mesoderm.
The host lacks entirely a digestive system but derives all the essential nutrients from its endosymbiont . The host in turn provides the endosymbiont with all necessary inorganic compounds for chemolithoautotrophy. Inorganic elements, such as hydrogen sulphide, are oxidized by bacteria to produce energy for carbon fixation. Trophosome tissue containing large quantities of concentrated sulphur has a light yellowish color. During sulfur limitation, i.e. when energy supply is reduced due to low concentrations of environmental sulfur, the stored sulfur is absorbed and the trophosome appears much darker. Therefore, the energetic state of the symbiosis can be specifically interpreted from the color of the trophosome.[citation needed]
Trophosome tissue development happens by stem cells in the center of each lobule, contributing to new lobules as well as the regeneration of bacteriocytes circulating from the center to the periphery of each lobule through which apoptosis happens. The trophosome tissue thus not only shows high levels of proliferation but also fairly small levels of apoptosis. Furthermore, symbionts in the periphery are constantly digested and replaced by separating symbionts in the middle.
Trophosome
A trophosome is a highly vascularised organ found in some animals that houses symbiotic bacteria that provide food for their host. Trophosomes are contained by the coelom of tube worms (family Siboglinidae, e.g. the giant tube worm Riftia pachyptila) and in the body of symbiotic flatworms of the genus Paracatenula.
Initially, the trophosome in frenulates and vestimentiferans, which are now classified as members of the Siboglinidae, had been identified as a mesodermal tissue. The discovery of bacteria inside the trophosomal tissue only occurred in 1981 when the ultrastructure of trophosome of several frenulate species and of Sclerolinum brattstromi was studied. The bacteriocytes and symbionts composed of 70.5% and 24.1% of the trophosome's volume respectively. Generally, trophosome extends over the entire trunk region between the two longitudinal blood vessels from immediately posterior to the ventral ciliary band of the forepart to the posterior end of the trunk delineated by the septum between trunk and first opisthosomal segment. The trophosome can be differentiated between anterior and a posterior area due to incremental changes in host tissue organization, the amount of bacteriocytes, the size and shape of symbionts. The trophosome consisted anteriorly of a small number of bacteriocytes and extensive mesenchyma, while the posterior of trophosome subsequently consisted of a large population of bacteriocytes and a peripheral peritoneum.
The bacteriocyte cytoplasm is abundant in glycogen and contains some electron-dense, round-shape granules. Mitochondria and the rough endoplastic reticulum are low in number. Throughout the anterior trophosome region, the nuclei were mainly oval but irregularity in the shape of the nuclei is observed in the posterior trophosome region. The cell wall of the symbionts composed of an outer membrane and a cytoplasmic membrane typical of gram-negative bacteria. Symbionts were often embedded separately in the symbiosome membrane adjacent to the bacterial cell wall except when they are proliferating. In such case, proliferating symbionts are frequently found in the anterior trophosome region.[citation needed]
In frenulates, the trophosome is limited to the post-annular portion of the trunk. While a structural variant of the frenulate trophosome seems to occur, this organ typically consists of two epithelium and blood spaces sandwiched between the basal matrix of the epithelia in which the inner one is composed of bacteriocytes and the outer one is the coelomic lining. The trophosome of Sclerolinum brattstromi consists of a centre of bacteriocytes surrounded by blood space and epithelium.
The trophosome of vestimentiferans is a complex, multi-lobed body with a vascular blood system that covers the entire trunk region. Each lobule consists of a tissue of bacteriocytes enclosed by an aposymbiotic coelothel. It is traversed by an axial efferent blood vessel, and is supplied with ramifying peripheral afferent blood vessels.
In Osedax, only the female has the trophosome. The trophosome in Osedax is made up of non symbiotic bacteria that reside between the muscle layer of the body's wall and the peritoneum in the ovisac and root regions; therefore, it is derived from the somatic mesoderm.
The host lacks entirely a digestive system but derives all the essential nutrients from its endosymbiont . The host in turn provides the endosymbiont with all necessary inorganic compounds for chemolithoautotrophy. Inorganic elements, such as hydrogen sulphide, are oxidized by bacteria to produce energy for carbon fixation. Trophosome tissue containing large quantities of concentrated sulphur has a light yellowish color. During sulfur limitation, i.e. when energy supply is reduced due to low concentrations of environmental sulfur, the stored sulfur is absorbed and the trophosome appears much darker. Therefore, the energetic state of the symbiosis can be specifically interpreted from the color of the trophosome.[citation needed]
Trophosome tissue development happens by stem cells in the center of each lobule, contributing to new lobules as well as the regeneration of bacteriocytes circulating from the center to the periphery of each lobule through which apoptosis happens. The trophosome tissue thus not only shows high levels of proliferation but also fairly small levels of apoptosis. Furthermore, symbionts in the periphery are constantly digested and replaced by separating symbionts in the middle.
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