#lovevirology — Public Fediverse posts
Live and recent posts from across the Fediverse tagged #lovevirology, aggregated by home.social.
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Lovely Mastodon peeps! Do I know any virologists here?
(Or are there any who *don’t* know me yet, but would be up for chatting briefly? It’s background for a project, and I would be really grateful, and of course credit you.)
Thank you!
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Lovely Mastodon peeps! Do I know any virologists here?
(Or are there any who *don’t* know me yet, but would be up for chatting briefly? It’s background for a project, and I would be really grateful, and of course credit you.)
Thank you!
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Lovely Mastodon peeps! Do I know any virologists here?
(Or are there any who *don’t* know me yet, but would be up for chatting briefly? It’s background for a project, and I would be really grateful, and of course credit you.)
Thank you!
-
Lovely Mastodon peeps! Do I know any virologists here?
(Or are there any who *don’t* know me yet, but would be up for chatting briefly? It’s background for a project, and I would be really grateful, and of course credit you.)
Thank you!
-
Lovely Mastodon peeps! Do I know any virologists here?
(Or are there any who *don’t* know me yet, but would be up for chatting briefly? It’s background for a project, and I would be really grateful, and of course credit you.)
Thank you!
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It's #phage week
@PLOSBiology!First up, Ellinor Alseth, Edze Westra and colleagues describe the impact of phage & phage resistance on microbial community dynamics
https://plos.io/49OSE9iThen Jennifer Bomberger and colleagues show that #lytic phages induce #cytokine release from human respiratory epithelium in a cool cross-kingdom interaction
https://plos.io/44dOUgu
♥️♥️ -
It's #phage week
@PLOSBiology!First up, Ellinor Alseth, Edze Westra and colleagues describe the impact of phage & phage resistance on microbial community dynamics
https://plos.io/49OSE9iThen Jennifer Bomberger and colleagues show that #lytic phages induce #cytokine release from human respiratory epithelium in a cool cross-kingdom interaction
https://plos.io/44dOUgu
♥️♥️ -
It's #phage week
@PLOSBiology!First up, Ellinor Alseth, Edze Westra and colleagues describe the impact of phage & phage resistance on microbial community dynamics
https://plos.io/49OSE9iThen Jennifer Bomberger and colleagues show that #lytic phages induce #cytokine release from human respiratory epithelium in a cool cross-kingdom interaction
https://plos.io/44dOUgu
♥️♥️ -
It's #phage week
@PLOSBiology!First up, Ellinor Alseth, Edze Westra and colleagues describe the impact of phage & phage resistance on microbial community dynamics
https://plos.io/49OSE9iThen Jennifer Bomberger and colleagues show that #lytic phages induce #cytokine release from human respiratory epithelium in a cool cross-kingdom interaction
https://plos.io/44dOUgu
♥️♥️ -
It's #phage week
@PLOSBiology!First up, Ellinor Alseth, Edze Westra and colleagues describe the impact of phage & phage resistance on microbial community dynamics
https://plos.io/49OSE9iThen Jennifer Bomberger and colleagues show that #lytic phages induce #cytokine release from human respiratory epithelium in a cool cross-kingdom interaction
https://plos.io/44dOUgu
♥️♥️ -
Just came across this helpful figure on the milestones of #phage research and #phagetherapy from a recent @PLOSBiology Essay, which is a highly recommended (and easy to read) deep dive into the topic
#LoveVirology -
Just came across this helpful figure on the milestones of #phage research and #phagetherapy from a recent @PLOSBiology Essay, which is a highly recommended (and easy to read) deep dive into the topic
#LoveVirology -
Just came across this helpful figure on the milestones of #phage research and #phagetherapy from a recent @PLOSBiology Essay, which is a highly recommended (and easy to read) deep dive into the topic
#LoveVirology -
Just came across this helpful figure on the milestones of #phage research and #phagetherapy from a recent @PLOSBiology Essay, which is a highly recommended (and easy to read) deep dive into the topic
#LoveVirology -
Just came across this helpful figure on the milestones of #phage research and #phagetherapy from a recent @PLOSBiology Essay, which is a highly recommended (and easy to read) deep dive into the topic
#LoveVirology -
This is an excellent opportunity to work with an awesome mentor
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RT @SesmaLab
The Fernandez-Sesma Lab is hiring! IMMEDIATELY AVAILABLE postdoctoral position in our lab at the department of Microbiology @IcahnMountSinai in New York. Applicants interested in virology, immunology and systems biology are encouraged to apply! @ceirr @hipcProject #LoveVirology
https://twitter.com/SesmaLab/status/1622605950363348994 -
This is an excellent opportunity to work with an awesome mentor
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RT @SesmaLab
The Fernandez-Sesma Lab is hiring! IMMEDIATELY AVAILABLE postdoctoral position in our lab at the department of Microbiology @IcahnMountSinai in New York. Applicants interested in virology, immunology and systems biology are encouraged to apply! @ceirr @hipcProject #LoveVirology
https://twitter.com/SesmaLab/status/1622605950363348994 -
This is an excellent opportunity to work with an awesome mentor
---
RT @SesmaLab
The Fernandez-Sesma Lab is hiring! IMMEDIATELY AVAILABLE postdoctoral position in our lab at the department of Microbiology @IcahnMountSinai in New York. Applicants interested in virology, immunology and systems biology are encouraged to apply! @ceirr @hipcProject #LoveVirology
https://twitter.com/SesmaLab/status/1622605950363348994 -
This is an excellent opportunity to work with an awesome mentor
---
RT @SesmaLab
The Fernandez-Sesma Lab is hiring! IMMEDIATELY AVAILABLE postdoctoral position in our lab at the department of Microbiology @IcahnMountSinai in New York. Applicants interested in virology, immunology and systems biology are encouraged to apply! @ceirr @hipcProject #LoveVirology
https://twitter.com/SesmaLab/status/1622605950363348994 -
The final version of our paper on the role of SNAP23 in germination of EV-D68 replication organelles is free through February 4, 2023 if you click here:
https://authors.elsevier.com/a/1gG7-9j6whZ%7Ek
#AFM #LoveVirology -
The final version of our paper on the role of SNAP23 in germination of EV-D68 replication organelles is free through February 4, 2023 if you click here:
https://authors.elsevier.com/a/1gG7-9j6whZ%7Ek
#AFM #LoveVirology -
The final version of our paper on the role of SNAP23 in germination of EV-D68 replication organelles is free through February 4, 2023 if you click here:
https://authors.elsevier.com/a/1gG7-9j6whZ%7Ek
#AFM #LoveVirology -
The final version of our paper on the role of SNAP23 in germination of EV-D68 replication organelles is free through February 4, 2023 if you click here:
https://authors.elsevier.com/a/1gG7-9j6whZ%7Ek
#AFM #LoveVirology -
Virus snowflake production has begun in the office. ICGS floor one will be all Christmassy with a virology twist in the next few days! #LoveVirology
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Virus snowflake production has begun in the office. ICGS floor one will be all Christmassy with a virology twist in the next few days! #LoveVirology
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Virus snowflake production has begun in the office. ICGS floor one will be all Christmassy with a virology twist in the next few days! #LoveVirology
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Virus snowflake production has begun in the office. ICGS floor one will be all Christmassy with a virology twist in the next few days! #LoveVirology
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Teaching starts tomorrow. Everyone loves virology! #LoveVirology
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For the non-virologists: My lab wants to understand how a virus rearranges the innards of a cell to turn it into a virus factory. The simple RNA viruses we study, such as the common cold virus and other respiratory viruses, do this quickly (3-4h) and ruthlessly. If one virus gets in, hundreds will emerge, and the cell is dead within several hours. #virology #LoveVirology #AFM
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For the non-virologists: My lab wants to understand how a virus rearranges the innards of a cell to turn it into a virus factory. The simple RNA viruses we study, such as the common cold virus and other respiratory viruses, do this quickly (3-4h) and ruthlessly. If one virus gets in, hundreds will emerge, and the cell is dead within several hours. #virology #LoveVirology #AFM
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For the non-virologists: My lab wants to understand how a virus rearranges the innards of a cell to turn it into a virus factory. The simple RNA viruses we study, such as the common cold virus and other respiratory viruses, do this quickly (3-4h) and ruthlessly. If one virus gets in, hundreds will emerge, and the cell is dead within several hours. #virology #LoveVirology #AFM
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For the non-virologists: My lab wants to understand how a virus rearranges the innards of a cell to turn it into a virus factory. The simple RNA viruses we study, such as the common cold virus and other respiratory viruses, do this quickly (3-4h) and ruthlessly. If one virus gets in, hundreds will emerge, and the cell is dead within several hours. #virology #LoveVirology #AFM
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For the non-virologists: My lab wants to understand how a virus rearranges the innards of a cell to turn it into a virus factory. The simple RNA viruses we study, such as the common cold virus and other respiratory viruses, do this quickly (3-4h) and ruthlessly. If one virus gets in, hundreds will emerge, and the cell is dead within several hours. #virology #LoveVirology #AFM
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A little introduction to what I do: My lab has demonstrated effects on autophagy, as well as other membrane-induction pathways, by poliovirus, rhinoviruses, and EV-D68. We have also published on the role of amphisome vesicles in promoting picornavirus particle maturation, the COPII and autophagic origins of viral RNA replication organelles. More recently we published on the roles of SNAP/SNARE proteins in virus maturation and release. #LoveVirology
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A little introduction to what I do: My lab has demonstrated effects on autophagy, as well as other membrane-induction pathways, by poliovirus, rhinoviruses, and EV-D68. We have also published on the role of amphisome vesicles in promoting picornavirus particle maturation, the COPII and autophagic origins of viral RNA replication organelles. More recently we published on the roles of SNAP/SNARE proteins in virus maturation and release. #LoveVirology
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A little introduction to what I do: My lab has demonstrated effects on autophagy, as well as other membrane-induction pathways, by poliovirus, rhinoviruses, and EV-D68. We have also published on the role of amphisome vesicles in promoting picornavirus particle maturation, the COPII and autophagic origins of viral RNA replication organelles. More recently we published on the roles of SNAP/SNARE proteins in virus maturation and release. #LoveVirology
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A little introduction to what I do: My lab has demonstrated effects on autophagy, as well as other membrane-induction pathways, by poliovirus, rhinoviruses, and EV-D68. We have also published on the role of amphisome vesicles in promoting picornavirus particle maturation, the COPII and autophagic origins of viral RNA replication organelles. More recently we published on the roles of SNAP/SNARE proteins in virus maturation and release. #LoveVirology
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A little introduction to what I do: My lab has demonstrated effects on autophagy, as well as other membrane-induction pathways, by poliovirus, rhinoviruses, and EV-D68. We have also published on the role of amphisome vesicles in promoting picornavirus particle maturation, the COPII and autophagic origins of viral RNA replication organelles. More recently we published on the roles of SNAP/SNARE proteins in virus maturation and release. #LoveVirology