Single molecules and single cells are the fundamental building blocks in biology. Facilitated by the advancement of technology, quantitative single-molecule and single-cell measurements provide a unique perspective toward many biological systems by revealing individual stochasticity and population heterogeneity. Taking advantage of these approaches, we studied chromosome organization and gene expression in bacteria and discovered new biophysical mechanisms: chromosome organization by a nucleoid-associated protein in live bacteria, and transcriptional bursting by the regulation of DNA supercoiling in bacteria
In all organisms, chromosomal DNA must be compacted nearly three orders of magnitude to fit within t...
If fully stretched out, a typical bacterial chromosome would be nearly 1 mm long, approximately 1,00...
The concept of single-cell genomics lies in the recognition of each bacterial cell as a unique and d...
Protein-DNA interactions are critical to many important biological functions, from transcription to ...
All living cells have to master the extraordinarily extended and tangly nature of genomic DNA molecu...
Single-cell techniques have a long history of unveiling fundamental paradigms in biology. Recent imp...
The relative simplicity of the bacterial cell, short generation times and well defined and inexpensi...
All living cells have to master the extraordinarily extended and tangly nature of genomic DNA molecu...
The past century of microbiological research has produced an impressive understanding of microbial ...
Bacterial Physiology was inaugurated as a discipline by the seminal research of Maaløe, Schaechter a...
A cell can be thought of as a highly sophisticated micro factory: in a pool of billions of molecules...
International audienceSince the nucleoid was isolated from bacteria in the 1970s, two fundamental qu...
Abstract An ongoing mission for biologists is to probe the molecular nature of cellular processes wi...
An ongoing mission for biologists is to probe the molecular nature of cellular processes within live...
To understand genomic processes such as transcription, translation or splicing, we need to be able t...
In all organisms, chromosomal DNA must be compacted nearly three orders of magnitude to fit within t...
If fully stretched out, a typical bacterial chromosome would be nearly 1 mm long, approximately 1,00...
The concept of single-cell genomics lies in the recognition of each bacterial cell as a unique and d...
Protein-DNA interactions are critical to many important biological functions, from transcription to ...
All living cells have to master the extraordinarily extended and tangly nature of genomic DNA molecu...
Single-cell techniques have a long history of unveiling fundamental paradigms in biology. Recent imp...
The relative simplicity of the bacterial cell, short generation times and well defined and inexpensi...
All living cells have to master the extraordinarily extended and tangly nature of genomic DNA molecu...
The past century of microbiological research has produced an impressive understanding of microbial ...
Bacterial Physiology was inaugurated as a discipline by the seminal research of Maaløe, Schaechter a...
A cell can be thought of as a highly sophisticated micro factory: in a pool of billions of molecules...
International audienceSince the nucleoid was isolated from bacteria in the 1970s, two fundamental qu...
Abstract An ongoing mission for biologists is to probe the molecular nature of cellular processes wi...
An ongoing mission for biologists is to probe the molecular nature of cellular processes within live...
To understand genomic processes such as transcription, translation or splicing, we need to be able t...
In all organisms, chromosomal DNA must be compacted nearly three orders of magnitude to fit within t...
If fully stretched out, a typical bacterial chromosome would be nearly 1 mm long, approximately 1,00...
The concept of single-cell genomics lies in the recognition of each bacterial cell as a unique and d...