Jump to content

Fayil:Fimmu-11-579250-g004.jpg

Page contents not supported in other languages.
Daga Wikipedia, Insakulofidiya ta kyauta.

Hoton asali (pikisal 893 × 686, girman fayil: 319 KB, irin MIME: image/jpeg)

Wannan hoto yazo daga Wikimedia Commons kuma za'a iya amfani dashi a wasu projects. Anan kasa an nuna asalin bayanin shi

Taƙaici

Bayani
English: Vaccine platforms being employed for SARS-CoV-2 vaccine design. This figure illustrates the different vaccine approaches being taken for the design of human SARS-CoV-2 vaccines. Whole virus vaccines include both attenuated and inactivated forms of the virus and subunits of inactivated virus can also be used. Protein and peptide subunit vaccines are usually combined with an adjuvant in order to enhance immunogenicity. The main emphasis in SARS-CoV-2 vaccine development has been on using the whole spike protein in its trimeric form or components of it, such as the RBD region. Multiple non-replicating viral vector vaccines have been developed, particularly focused on adenovirus; while there has been less emphasis on the replicating viral vector constructs. Nucleic acid-based approaches include DNA and mRNA vaccines, often packaged into nanocarriers such as virus-like particles (VLPs) and lipid nanoparticles (LNPs). Nanoparticle and VLP vaccines can also have antigen attached to their surface or combined in their core. The immune cell therapy approach uses genetically modified SARS-CoV-2-specific cytotoxic T cells and dendritic cells expressing viral antigens to protect against SARS-CoV-2 infection. Each of these vaccine approaches has benefits and disadvantages in terms of cost and ease of production, safety profile and immunogenicity, and it remains to be seen which of the many candidates in development protect against COVID-19.
Rana
Masomi

Flanagan KL, Best E, Crawford NW, Giles M, Koirala A, Macartney K, Russell F, Teh BW and Wen SCH (2020) Progress and Pitfalls in the Quest for Effective SARS-CoV-2 (COVID-19) Vaccines. Front. Immunol. 11:579250.

https://doi.org/10.3389/fimmu.2020.579250
Marubucin Katie L. Flanagan, Emma Best, Nigel W. Crawford, Michelle Giles, Archana Koirala, Kristine Macartney, Fiona Russell, Benjamin W. Teh, and Sophie CH Wen, on behalf of the Australasian Society for Infectious Diseases (ASID) Vaccination Special Interest group (VACSIG)

Lasisi

w:en:Creative Commons
Jinginarwa
This file is licensed under the Creative Commons Attribution 4.0 International license.
Za ka iya:
  • a raba – dan kwafa, yadawa da aika aikin
  • dan maimaita – dan daukar aikin
A karkashin wannan sharuddan
  • Jinginarwa – Dole ku bada jinjina da ta dace, samar da linki zuwa lasisin, da kuma bayyana ko kunyi sauyi. Zaku iya haka ta yadda ta dace, amma ba kowace hanya ba wanda zai nuna mai-lasisin yana goyon bayan ku ba ko goyon bayan amfanin da kuke yi ba.

Take

Add a one-line explanation of what this file represents
Vaccine platforms being employed for SARS-CoV-2 vaccine design.

Abubuwan da aka nuna a cikin wannan fayil

depicts Turanci

copyrighted Turanci

2 Oktoba 2020

Tarihin fayil

Ku latsa rana/lokaci ku ga fayil yadda yake a wannan lokaci

Rana/LokaciWadar sufaKusurwowiMa'aikaciBahasi
na yanzu14:30, 1 ga Faburairu, 2021Wadar sufa ta zubin 14:30, 1 ga Faburairu, 2021893 × 686 (319 KB)Guest2625Uploaded a work by Katie L. Flanagan, Emma Best, Nigel W. Crawford, Michelle Giles, Archana Koirala, Kristine Macartney, Fiona Russell, Benjamin W. Teh, and Sophie CH Wen, on behalf of the Australasian Society for Infectious Diseases (ASID) Vaccination Special Interest group (VACSIG) from Flanagan KL, Best E, Crawford NW, Giles M, Koirala A, Macartney K, Russell F, Teh BW and Wen SCH (2020) Progress and Pitfalls in the Quest for Effective SARS-CoV-2 (COVID-19) Vaccines. Front. Immunol. 11:579...

Wadannan shafi na amfani wannan fayil:

Amfanin fayil a ko'ina

Wadannan sauran wikis suna amfani da fayil din anan

bayannan meta