Evolution of Adaptive Immunity through Set-Aside Cells

Department of Veterinary and Animal Sciences

Evolution of Adaptive Immunity through Set-Aside Cells

Research output: Chapter in Book/Report/Conference proceeding › Book chapter › Research › peer-review

Standard

Evolution of Adaptive Immunity through Set-Aside Cells. / Buchmann, Kurt.

Deferring Development: Setting Aside Cells for Future Use in Development and Evolution. ed. / Cory Douglas Bishop; Brian K. Hall. CRC Press, 2020.

Research output: Chapter in Book/Report/Conference proceeding › Book chapter › Research › peer-review

Harvard

Buchmann, K 2020, Evolution of Adaptive Immunity through Set-Aside Cells. in CD Bishop & BK Hall (eds), Deferring Development: Setting Aside Cells for Future Use in Development and Evolution. CRC Press.

APA

Buchmann, K. (2020). Evolution of Adaptive Immunity through Set-Aside Cells. In C. D. Bishop, & B. K. Hall (Eds.), Deferring Development: Setting Aside Cells for Future Use in Development and Evolution CRC Press.

Vancouver

Buchmann K. Evolution of Adaptive Immunity through Set-Aside Cells. In Bishop CD, Hall BK, editors, Deferring Development: Setting Aside Cells for Future Use in Development and Evolution. CRC Press. 2020

Author

Buchmann, Kurt. / Evolution of Adaptive Immunity through Set-Aside Cells. Deferring Development: Setting Aside Cells for Future Use in Development and Evolution. editor / Cory Douglas Bishop ; Brian K. Hall. CRC Press, 2020.

Bibtex

@inbook{841e3efbfef2435aa5134255ee7bb0b6,

title = "Evolution of Adaptive Immunity through Set-Aside Cells",

abstract = "The immunity raised in vertebrates by the use of the classic adaptive immune mechanisms involves the major histocompatibility complex, B- and T lymphocytes associated with RAG1 and RAG2, and somatic hypermutations. The adaptive immune system applying set-aside cells enabling the host organism to respond faster and more specifically to a second encounter with a pathogen is developed to the highest degree in mammals. The social amoebae Dictyostelium discoideum form a primitive multicellular organism but with some specialization between compartments. The cnidarians comprise—among others—jellyfish and sea anemones and are equipped with different types of immune-related cell types, which are able to communicate with vertebrate-like cytokines. The cellular equipment of crustaceans allows representatives of this group to sense and phagocytose foreign elements and potential pathogens, leading to protection against reexposure to pathogen. The cellular machinery of earthworms has been extensively studied, and several cell types described.",

author = "Kurt Buchmann",

year = "2020",

language = "English",

editor = "Bishop, {Cory Douglas } and Hall, {Brian K.}",

booktitle = "Deferring Development",

publisher = "CRC Press",

}

RIS

TY - CHAP

T1 - Evolution of Adaptive Immunity through Set-Aside Cells

AU - Buchmann, Kurt

PY - 2020

Y1 - 2020

N2 - The immunity raised in vertebrates by the use of the classic adaptive immune mechanisms involves the major histocompatibility complex, B- and T lymphocytes associated with RAG1 and RAG2, and somatic hypermutations. The adaptive immune system applying set-aside cells enabling the host organism to respond faster and more specifically to a second encounter with a pathogen is developed to the highest degree in mammals. The social amoebae Dictyostelium discoideum form a primitive multicellular organism but with some specialization between compartments. The cnidarians comprise—among others—jellyfish and sea anemones and are equipped with different types of immune-related cell types, which are able to communicate with vertebrate-like cytokines. The cellular equipment of crustaceans allows representatives of this group to sense and phagocytose foreign elements and potential pathogens, leading to protection against reexposure to pathogen. The cellular machinery of earthworms has been extensively studied, and several cell types described.

AB - The immunity raised in vertebrates by the use of the classic adaptive immune mechanisms involves the major histocompatibility complex, B- and T lymphocytes associated with RAG1 and RAG2, and somatic hypermutations. The adaptive immune system applying set-aside cells enabling the host organism to respond faster and more specifically to a second encounter with a pathogen is developed to the highest degree in mammals. The social amoebae Dictyostelium discoideum form a primitive multicellular organism but with some specialization between compartments. The cnidarians comprise—among others—jellyfish and sea anemones and are equipped with different types of immune-related cell types, which are able to communicate with vertebrate-like cytokines. The cellular equipment of crustaceans allows representatives of this group to sense and phagocytose foreign elements and potential pathogens, leading to protection against reexposure to pathogen. The cellular machinery of earthworms has been extensively studied, and several cell types described.

M3 - Book chapter

BT - Deferring Development

A2 - Bishop, Cory Douglas

A2 - Hall, Brian K.

PB - CRC Press

ER -

ID: 240150373