M Kaller scite author profile

See Saporta and Shy (doi:) for a scientific commentary on this article.Clark et al. report that human sensory neurons derived from iPSCs can be myelinated by rat Schwann cells in culture. Such co-cultures develop features of mature myelinated fibres in a neuregulin-1 dependent manner. Antiganglioside antibodies associated with inflammatory peripheral neuropathies can both impede myelination and cause loss of established myelin.

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Pausing controls branching between productive and non-productive pathways during initial transcription in bacteria

Dulin

Bauer

Malinen

et al. 2018

Nat Commun

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Transcription in bacteria is controlled by multiple molecular mechanisms that precisely regulate gene expression. It has been recently shown that initial RNA synthesis by the bacterial RNA polymerase (RNAP) is interrupted by pauses; however, the pausing determinants and the relationship of pausing with productive and abortive RNA synthesis remain poorly understood. Using single-molecule FRET and biochemical analysis, here we show that the pause encountered by RNAP after the synthesis of a 6-nt RNA (ITC6) renders the promoter escape strongly dependent on the NTP concentration. Mechanistically, the paused ITC6 acts as a checkpoint that directs RNAP to one of three competing pathways: productive transcription, abortive RNA release, or a new unscrunching/scrunching pathway. The cyclic unscrunching/scrunching of the promoter generates a long-lived, RNA-bound paused state; the abortive RNA release and DNA unscrunching are thus not as tightly linked as previously thought. Finally, our new model couples the pausing with the abortive and productive outcomes of initial transcription.

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Myelin plasticity and behaviour — connecting the dots

Kaller

Lazari

Blanco‐Duque

et al. 2017

Current Opinion in Neurobiology

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HighlightsChanges in white matter and myelin are associated with learning during adulthood across species.The causal link between myelin plasticity and behaviour remains elusive.Preventing the differentiation of new OLs can impair learning within the first few hours.Myelin remodelling may occur through many different routes and mechanism.The functional arrangement of myelination along axons can be complex and diverse.

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Pausing controls branching between productive and non-productive pathways during initial transcription

Dulin

Dlv

et al. 2017

Preprint

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Transcription in bacteria is controlled by multiple molecular mechanisms that precisely regulate gene expression. Recently, initial RNA synthesis by the bacterial RNA polymerase (RNAP) has been shown to be interrupted by pauses; however, the pausing determinants and the relationship of pausing with productive and abortive RNA synthesis remain poorly understood. Here, we employed single-molecule FRET and biochemical analysis to disentangle the pausing-related pathways of bacterial initial transcription. We present further evidence that region σ 3.2 constitutes a barrier after the initial transcribing complex synthesizes a 6-nt RNA (ITC6), halting transcription. We also show that the paused ITC6 state acts as a checkpoint that directs RNAP, in an NTP-dependent manner, to one of three competing pathways: productive transcription, abortive RNA release, or a new unscrunching/scrunching pathway that blocks transcription initiation. Our results show that abortive RNA release and DNA unscrunching are not as tightly coupled as previously thought.

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M Kaller

Co-cultures with stem cell-derived human sensory neurons reveal regulators of peripheral myelination

Pausing controls branching between productive and non-productive pathways during initial transcription in bacteria

Myelin plasticity and behaviour — connecting the dots

Pausing controls branching between productive and non-productive pathways during initial transcription

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