RT @christo71213435: chromosome segregationists take note 👇 https://t.co/tuY9AzNhAD
chromosome segregationists take note 👇
Read the nature communications paper here: https://t.co/nSldTgFjyI
RT @CBroedersz: 🔥 Check out our latest work! 🔥 We develop a principled and fully data-driven approach to study chromosome organization in b…
RT @NatureComms: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales…
RT @hlcao: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales | Nat…
RT @hlcao: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales | Nat…
RT @NatureComms: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales…
RT @NatureComms: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales…
Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales | Nature Communications https://t.co/9tXEojtqv2
Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales @JorisMesselink @CBroedersz @PhysOfLifeLMU @MvanTeeseling @ThanbichlerLab https://t.co/YBl65mbPfL https://t.co/y6NSD4oB7K
RT @NatureComms: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales…
RT @NatureComms: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales…
RT @CBroedersz: 🔥 Check out our latest work! 🔥 We develop a principled and fully data-driven approach to study chromosome organization in b…
RT @NatureComms: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales…
RT @NatureComms: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales…
RT @pacyc1841: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales |…
Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales | Nature Communications https://t.co/ZxiJBDSCKx
RT @NatureComms: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales…
RT @CBroedersz: 🔥 Check out our latest work! 🔥 We develop a principled and fully data-driven approach to study chromosome organization in b…
RT @NatureComms: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales…
RT @NatureComms: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales…
🔥 Check out our latest work! 🔥 We develop a principled and fully data-driven approach to study chromosome organization in bacteria. This reveals novel emergent organization 🧬🤯
RT @NatureComms: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales…
RT @NatureComms: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales…
RT @NatureComms: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales…
RT @NatureComms: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales…
RT @NatureComms: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales…
Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales @JorisMesselink @CBroedersz @PhysOfLifeLMU @MvanTeeseling @ThanbichlerLab https://t.co/YBl65lUeod https://t.co/JTmhgxkDaU
RT @ThanbichlerLab: A novel, fully data-driven approach to extract information about the dynamics of bacterial chromosomes from Hi-C data -…
RT @nanomicroscopy: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic sca…
RT @_StalkBot: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales h…
Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales https://t.co/jnpMDGjCfy https://t.co/DzSTtFiN31
RT @_StalkBot: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales h…
RT @micro_papers: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scale…
Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales https://t.co/SkBUCvHkSl
Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales https://t.co/KC7G9DCf8v
Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales by Joris J B Messelink https://t.co/6gm0mMlOce
RT @JorisMesselink: How are bacterial chromosomes spatially organized? In our latest publication in @NatureComms, we answer this question u…
RT @JorisMesselink: How are bacterial chromosomes spatially organized? In our latest publication in @NatureComms, we answer this question u…
RT @JorisMesselink: How are bacterial chromosomes spatially organized? In our latest publication in @NatureComms, we answer this question u…
RT @ThanbichlerLab: A novel, fully data-driven approach to extract information about the dynamics of bacterial chromosomes from Hi-C data -…
RT @JorisMesselink: How are bacterial chromosomes spatially organized? In our latest publication in @NatureComms, we answer this question u…
RT @JorisMesselink: How are bacterial chromosomes spatially organized? In our latest publication in @NatureComms, we answer this question u…
RT @ThanbichlerLab: A novel, fully data-driven approach to extract information about the dynamics of bacterial chromosomes from Hi-C data -…
RT @ThanbichlerLab: A novel, fully data-driven approach to extract information about the dynamics of bacterial chromosomes from Hi-C data -…
RT @JorisMesselink: How are bacterial chromosomes spatially organized? In our latest publication in @NatureComms, we answer this question u…
RT @BioassayTech: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scale…
Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales https://t.co/eWZc0NgEJW
RT @hlcao: Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales | Nat…
Learning the distribution of single-cell chromosome conformations in bacteria reveals emergent order across genomic scales | Nature Communications https://t.co/9tXEojtqv2
RT @JorisMesselink: How are bacterial chromosomes spatially organized? In our latest publication in @NatureComms, we answer this question u…
RT @JorisMesselink: How are bacterial chromosomes spatially organized? In our latest publication in @NatureComms, we answer this question u…
RT @JorisMesselink: How are bacterial chromosomes spatially organized? In our latest publication in @NatureComms, we answer this question u…
RT @AngelGMoreno: Super interesting!! https://t.co/LNUE3B2aaQ
RT @AngelGMoreno: Super interesting!!
Super interesting!!
RT @JorisMesselink: How are bacterial chromosomes spatially organized? In our latest publication in @NatureComms, we answer this question u…
Check out the paper 👉 https://t.co/oY8ij25eQU
RT @JorisMesselink: How are bacterial chromosomes spatially organized? In our latest publication in @NatureComms, we answer this question u…
RT @JorisMesselink: How are bacterial chromosomes spatially organized? In our latest publication in @NatureComms, we answer this question u…
RT @MvanTeeseling: Wondering how chromosomes are organized at the single-cell level? @JorisMesselink and @CBroedersz managed to extract the…
RT @JorisMesselink: How are bacterial chromosomes spatially organized? In our latest publication in @NatureComms, we answer this question u…
This looks super cool! And what a tweetorial...
RT @JorisMesselink: How are bacterial chromosomes spatially organized? In our latest publication in @NatureComms, we answer this question u…
RT @JorisMesselink: How are bacterial chromosomes spatially organized? In our latest publication in @NatureComms, we answer this question u…
RT @MvanTeeseling: Wondering how chromosomes are organized at the single-cell level? @JorisMesselink and @CBroedersz managed to extract the…
Check out this awesome paper on inferring spatial chromosome organization directly from experimental contact-frequency (Hi-C) maps
RT @MvanTeeseling: Wondering how chromosomes are organized at the single-cell level? @JorisMesselink and @CBroedersz managed to extract the…
RT @JorisMesselink: How are bacterial chromosomes spatially organized? In our latest publication in @NatureComms, we answer this question u…
Wondering how chromosomes are organized at the single-cell level? @JorisMesselink and @CBroedersz managed to extract these data from Hi-C maps. It shows superdomains in C. crescentus's chromosome, which we (@ThanbichlerLab) could see w/ microscopy. https:/
How are bacterial chromosomes spatially organized? In our latest publication in @NatureComms, we answer this question using a fully data-driven Maximum Entropy approach: https://t.co/k4dtdH1Tox. With thanks to @ThanbichlerLab, @MvanTeeseling for a fruitful
RT @ThanbichlerLab: A novel, fully data-driven approach to extract information about the dynamics of bacterial chromosomes from Hi-C data -…
RT @ThanbichlerLab: A novel, fully data-driven approach to extract information about the dynamics of bacterial chromosomes from Hi-C data -…
RT @ThanbichlerLab: A novel, fully data-driven approach to extract information about the dynamics of bacterial chromosomes from Hi-C data -…
RT @ThanbichlerLab: A novel, fully data-driven approach to extract information about the dynamics of bacterial chromosomes from Hi-C data -…
A novel, fully data-driven approach to extract information about the dynamics of bacterial chromosomes from Hi-C data -- We thank the Broedersz group for involving us in this exciting project! https://t.co/Acu6zdoXzB @CBroedersz @MvanTeeseling