RT @EricTopol: Single-cell RNA seq study of healthy tissue to determine the precise path of how #COVID19 enters nose cells https://t.co/i5M…
Interesting and rapid paper
RT @NatureMedicine: Mapping the susceptibility of different cell types in the body to #SARSCoV2 infection will help researchers begin to un…
RT @teichlab: Our first COVID-19 paper by the Lung Biological Network is online at Nature Medicine: SARS-CoV-2 entry factors are highly exp…
Could this be the reason some cases infected with #COVID19 lost sense of smell? (The ciliated cells have axons, right?) Could there be a correlation between loss of smell and developing #guillainbarresyndrome? https://t.co/xEVqkXHAbW https://t.co/hpqOVgpvE
RT @BeachPretzel2: Betrayed by your nose: A new study published in Nature and led by a team at Cambridge U’s Wellcome Sanger Institute foun…
RT @teichlab: Our first COVID-19 paper by the Lung Biological Network is online at Nature Medicine: SARS-CoV-2 entry factors are highly exp…
RT @PengHeCambridge: Nature has just released a summary of data resources organized by @humancellatlas that can help us understand COVID-19…
RT @JeremyFarrar: And the paper - SARS-CoV-2 entry factors are highly expressed in nasal epithelial cells together with innate immune genes…
RT @NatureMedicine: Mapping the susceptibility of different cell types in the body to #SARSCoV2 infection will help researchers begin to un…
RT @teichlab: Our first COVID-19 paper by the Lung Biological Network is online at Nature Medicine: SARS-CoV-2 entry factors are highly exp…
@itsnotgenevieve A @calico adorbs! NS ref material on the subject is loosely interpretated as one of my favs. https://t.co/Y6Q6EE51Pd
Two nasal cell types identified as likely initial viral-entry points for COVID-19, possibly explaining the high transmission rate. @NatureMedicine #Covid_19 #CoronaUpdate #study #SARSCoV2 https://t.co/k49xcl8ZJY
RT @WojciechKozows5: Oryginalny artykuł: https://t.co/Fmxz2f5qa1
RT @EricTopol: Single-cell RNA seq study of healthy tissue to determine the precise path of how #COVID19 enters nose cells https://t.co/i5M…
RT @BeachPretzel2: Betrayed by your nose: A new study published in Nature and led by a team at Cambridge U’s Wellcome Sanger Institute foun…
RT @BeachPretzel2: Betrayed by your nose: A new study published in Nature and led by a team at Cambridge U’s Wellcome Sanger Institute foun…
RT @BeachPretzel2: Betrayed by your nose: A new study published in Nature and led by a team at Cambridge U’s Wellcome Sanger Institute foun…
RT @BeachPretzel2: Betrayed by your nose: A new study published in Nature and led by a team at Cambridge U’s Wellcome Sanger Institute foun…
Betrayed by your nose: A new study published in Nature and led by a team at Cambridge U’s Wellcome Sanger Institute found that nasal epithelial cells—the cells on the inner lining of your nose—are likely the most effective route for you to become infected.
RT @teichlab: Our first COVID-19 paper by the Lung Biological Network is online at Nature Medicine: SARS-CoV-2 entry factors are highly exp…
and also https://t.co/sqXvFlV9yE
cool, see also https://t.co/grBdfsKKiF
RT @NatureMedicine: Mapping the susceptibility of different cell types in the body to #SARSCoV2 infection will help researchers begin to un…
#SARSCoV2 Entry Factors | highly expressed in nasal epithelial cells together with innate immune genes | Waradon Sungnak @sangerinstitute https://t.co/0f0O1Iq9ym https://t.co/qVzKpCGMpK
RT @teichlab: Our first COVID-19 paper by the Lung Biological Network is online at Nature Medicine: SARS-CoV-2 entry factors are highly exp…
El 'mapa' de coronavirus identifica puntos clave de entrada de virus en el cuerpo (publicado en @nature ) Destacan 2 tipos de células específicas en la nariz, llamadas células caliciformes y ciliadas, como puntos de infección inicial probable del COVID19
Et eksempel på et forløb: SARSCoV2 forlader den syge værtskrop, enten ved nys, host, eller høj tale. Den videreføres derefter den til en rask, som inhalere det eks. gennem næsen. Her sætter den sig på i slimhinderne der er rig på ACE2 et specielt enzym. ht
RT @teichlab: Our first COVID-19 paper by the Lung Biological Network is online at Nature Medicine: SARS-CoV-2 entry factors are highly exp…
#COVID19 Laut einer Studie, die von vielen Wissenschaftlern aus verschiedenen Ländern durchgeführt wurde, sind insbesondere die beiden Zelltypen in der Nase das Haupteingangstor des neuen Coronavirus-Typs in den Körper. https://t.co/xliXYF3yii
RT @richardursomd: SARS-CoV-2 entry factors are highly expressed in nasal epithelial cells together with innate immune genes | Nature Medic…
RT @NatureMedicine: Mapping the susceptibility of different cell types in the body to #SARSCoV2 infection will help researchers begin to un…
RT @SysbioS: SARS-CoV-2 entry factors are highly expressed in nasal epithelial cells together with innate immune genes- new paper by the HC…
SARS-CoV-2 entry factors are highly expressed in nasal epithelial cells together with innate immune genes | Nature Medicine https://t.co/pe1gEjL8VI
RT @NatureMedicine: Mapping the susceptibility of different cell types in the body to #SARSCoV2 infection will help researchers begin to un…
RT @MDC_Berlin: Two cell types in the #nose have been identified as likely initial infection points for the novel #coronavirus that causes…
Expression of receptors (ACE2) to which SARCSCoV2 spike protein binds in nasal epithelium, coexpressed with TMPRSS2 (primes S); poss relevance to presymptomatic spread:
#SARSCoV2 Entry Factors | highly expressed in nasal epithelial cells together with innate immune genes | Waradon Sungnak @sangerinstitute https://t.co/0f0O1Iq9ym https://t.co/KLCQxCI0j3
Los genes que codifican para las proteínas que permiten la entrada del #COVID19 están altamente expresados en las células del epitelio nasal junto con genes de respuesta inmunitaria innata. https://t.co/lOqMxgWbfo
RT @EricTopol: Single-cell RNA seq study of healthy tissue to determine the precise path of how #COVID19 enters nose cells https://t.co/i5M…
RT @EricTopol: Single-cell RNA seq study of healthy tissue to determine the precise path of how #COVID19 enters nose cells https://t.co/i5M…
@Yulisha Это я нахожу повод для беспокойства в лат в исследовательской работе ниже Юлии @RT_com
@NatureMedicine study - 2 specific cell types in nose as possible initial infection points for #COVID19 #coronavirus, helps explain the high rate of transmission https://t.co/GQfsl1ymiB https://t.co/umT91TZuQH
SARS-CoV-2 entry factors are highly expressed in nasal epithelial cells together with innate immune genes https://t.co/jG5XGMZ23c
@PawelT_PL Artykuł z wczoraj w Nature Medicine, postuluje że SARS-CoV2 dostaje się do organizmu przez śluzówkę nosa i oczu. Takie noszenie maski nie tylko nie pomaga, ale może bardzo zaszkodzić, bez względu na IQ i przekonania polityczne https://t.co/Fmxz
RT @NatureMedicine: Mapping the susceptibility of different cell types in the body to #SARSCoV2 infection will help researchers begin to un…
RT @PengHeCambridge: Nature has just released a summary of data resources organized by @humancellatlas that can help us understand COVID-19…
Oryginalny artykuł: https://t.co/Fmxz2f5qa1
鼻が主な侵入口かも知れないという話 https://t.co/1Ee3MahSBr
RT @JeremyFarrar: And the paper - SARS-CoV-2 entry factors are highly expressed in nasal epithelial cells together with innate immune genes…
RT @teichlab: Our first COVID-19 paper by the Lung Biological Network is online at Nature Medicine: SARS-CoV-2 entry factors are highly exp…
RT @ChrBecavin: Forgot the link https://t.co/hjVbJNSaw3
Saliva is more sensitive for SARS-CoV-2 detection in COVID-19 patients than nasopharyngeal swabs. https://t.co/T7c3bF7GvY
Mucus-producing goblet & ciliated cells in the nose have high levels of the entry proteins ACE2 receptor & TMPRSS2 protease that the #SARSCoV2 uses to get into cells, which could help explain the high rate of transmission. Also found in cornea &
SARS-CoV-2 entry factors are highly expressed in nasal epithelial cells together with innate immune genes https://t.co/HnDRkNxqgj @omarsery1
RT @cartalop: Big congratulations to my colleagues @teichlab and everyone else involved. Happy to be part of this amazing work. @sangerinst…
RT @EricTopol: Single-cell RNA seq study of healthy tissue to determine the precise path of how #COVID19 enters nose cells https://t.co/i5M…
RT @JeremyFarrar: And the paper - SARS-CoV-2 entry factors are highly expressed in nasal epithelial cells together with innate immune genes…
Nose, eyes, GI tract are all transmission sites for COVID-19... https://t.co/FdNr0WeAkq #foodsupsecurity #fuelingtactics #fuelNhuskers
RT @MDC_Berlin: Zwei Zelltypen in der Nase sind wahrscheinlich die ersten Eintrittspforten für das neue #Coronavirus. Hinweise darauf geben…
SARS-CoV-2 entry factors are highly expressed in nasal epithelial cells together with innate immune genes | Nature Medicine https://t.co/lOyGo2vjOE
RT @carninci: Human Cell Atlas colleagues publish a landmark paper in Nature Medicine; important information on expression of receptors of…
CTSB?
RT @teichlab: Our first COVID-19 paper by the Lung Biological Network is online at Nature Medicine: SARS-CoV-2 entry factors are highly exp…
@ElianaGolber FYI
Entrada do sars-cov-2 é pelo nariz e olhos também! Se protejam! https://t.co/ijkVNTdVjH
SARS-CoV-2 entry factors are highly expressed in nasal epithelial cells together with innate immune genes | Nature Medicine This is great and well worth the read. Learning as we go. #coronavirus #covid19 NB not for #Trump #MAGA fools https://t.co/CZXd0jJ3
新型コロナウイルスが感染するターゲットを1細胞レベルで解析。鼻腔の嗅上皮、角膜、小腸において、ウイルス侵入に必要なACE2、TMPRSS2が共発現。広範囲に渡るため感染力が強いのか。 今までの1細胞RNASeqの知見が、今の研究に生きていますね! https://t.co/kgi5NLnIgV
RT @NatureMedicine: Mapping the susceptibility of different cell types in the body to #SARSCoV2 infection will help researchers begin to un…
RT @NatureMedicine: Mapping the susceptibility of different cell types in the body to #SARSCoV2 infection will help researchers begin to un…
RT @PengHeCambridge: Nature has just released a summary of data resources organized by @humancellatlas that can help us understand COVID-19…
RT @PengHeCambridge: Nature has just released a summary of data resources organized by @humancellatlas that can help us understand COVID-19…
Nature has just released a summary of data resources organized by @humancellatlas that can help us understand COVID-19 !! https://t.co/R54NKi37QQ
RT @NatureMedicine: Mapping the susceptibility of different cell types in the body to #SARSCoV2 infection will help researchers begin to un…
RT @MDC_Berlin: Zwei Zelltypen in der Nase sind wahrscheinlich die ersten Eintrittspforten für das neue #Coronavirus. Hinweise darauf geben…
Paper on heightened susceptibility of two types of nasal cells to Sars-CoV-2 entry has interesting comment on 1. R0 and transmissibility 2. Concomitant expression of innate antiviral immune defense in the same cells 3. Intranasal route for vaccine success
@NatureMedicine farklı ülkelerden birçok bilim insanın yaptığı ortak bir araştırma sonuçlarını açıkladı. Buna göre özellikle burunda mukus üreten goblet ve siliyer hücresi yeni tip koronavirüsün vücuda ana giriş kapısını oluşturuyor. https://t.co/3OaIr15f
Source : https://t.co/sFDPNSgV7n Il y a aussi ce magnifique site associé : https://t.co/uv5icriUfn
RT @teichlab: Our first COVID-19 paper by the Lung Biological Network is online at Nature Medicine: SARS-CoV-2 entry factors are highly exp…
المسار الأكثر احتمالاً للإصابة بالفيروس." https://t.co/beqpOQj4Mc