Comparative genomics hints at dispensability of multiple essential genes in two Escherichia coli L-form strains.

Despite the critical role of bacterial cell walls in maintaining cell shapes, certain environmental stressors can induce the transition of many bacterial species into a wall-deficient state called L-form. Long-term induced Escherichia coli L-forms lose their rod shape and usually hold significant mutations that affect cell division and growth. Besides this, the genetic background of L-form bacteria is still poorly understood.

Lipid Exchange Promotes Fusion of Model Protocells.

Vesicle fusion is an important process underlying cell division, transport, and membrane trafficking. In phospholipid systems, a range of fusogens including divalent cations and depletants have been shown to induce adhesion, hemifusion, and then full content fusion between vesicles. This work shows that these fusogens do not perform the same function for fatty acid vesicles, which are used as model protocells (primitive cells).

Quantification of Giant Unilamellar Vesicle Fusion Products by High-Throughput Image Analysis.

Artificial cells are based on dynamic compartmentalized systems. Thus, remodeling of membrane-bound systems, such as giant unilamellar vesicles, is finding applications beyond biological studies, to engineer cell-mimicking structures. Giant unilamellar vesicle fusion is rapidly becoming an essential experimental step as artificial cells gain prominence in synthetic biology.

Construction of a mini-RNA replicon in .

How the ribonucleic acid (RNA) world transited to the deoxyribonucleic acid (DNA) world has remained controversial in evolutionary biology. At a certain time point in the transition from the RNA world to the DNA world, 'RNA replicons', in which RNAs produce proteins to replicate their coding RNA, and 'DNA replicons', in which DNAs produce RNA to synthesize proteins that replicate their coding DNA, can be assumed to coexist. The coexistent state of RNA replicons and DNA replicons is desired for experimental approaches to determine how the DNA world overtook the RNA world.