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Special collection: Stem Cells & Development 2021
Focus on mechanobiology
Immune cell biology

Zeng…Su: PLCg1 promotes phase separation in T cells
Trafficking

Shomron… Hirschberg: COPII defines the boundary between ER and ERESs

RUP response to COVID-19 crisis: Learn about the steps we are taking and find relevant content.

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New Articles

Article

| June 15 2021

Chromatin compaction represses the germline genome

Mezmur D. Belew, Emilie Chien, Matthew Wong, W. Matthew Michael

Belew et al. report that C. elegans primordial germ cells become transcriptionally repressed if embryos hatch without nutrients. They also describe a novel pathway whereby condensin II and TOP-2 regulate heterochromatin to compact the germline genome to globally repress transcription.

Article

| June 15 2021

Tankyrase regulates epithelial lumen formation

Arun A. Chandrakumar, Étienne Coyaud, Christopher B. Marshall, Mitsuhiko Ikura, Brian Raught, Robert Rottapel

Chandrakumar et al. reveal that lumen formation in epithelial cells is regulated by ADP-ribosylation and ubiquitylation. Tankyrase inhibits its substrates SH3BP5 and SH3BP5L, which are Rab11a guanine nucleotide exchange factors, while the E3 ligase RNF146 promotes Rab11a activity by degrading Tankyrase during lumenogenesis.

Article

| June 09 2021

MICAL2 disassembles Arp3B branched actin networks

Chiara Galloni, Davide Carra, Jasmine V.G. Abella, Svend Kjær, Pavithra Singaravelu, David J. Barry, Naoko Kogata, Christophe Guérin, Laurent Blanchoin, Michael Way

Galloni, Carra, et al. demonstrate that Arp3B isoform–specific Arp2/3 complexes generate branched actin networks with faster disassembly kinetics. This increased turnover is due to oxidation of Met293 of Arp3B by the methionine monooxygenase MICAL2, which is recruited to the branched actin network by coronin 1C.

Article

| June 08 2021

Treacle and TOPBP1 in nucleolar replication stress

Artem K. Velichko, Natalia Ovsyannikova, Nadezhda V. Petrova, Artem V. Luzhin, Maria Vorobjeva, Alexey S. Gavrikov, Alexander S. Mishin, Igor I. Kireev, Sergey V. Razin, Omar L. Kantidze

Although replication stress response has been extensively studied, almost nothing is known about the replication stress response in nucleoli. Velichko et al. have studied the molecular mechanisms involved in protecting the cell from replication stress induced in rDNA (nucleolus) of the higher eukaryotes.

Article

| June 07 2021

The WAVE complex associates with saddle curvature

Anne Pipathsouk, Rachel M. Brunetti, Jason P. Town, Brian R. Graziano, Artù Breuer, Patrina A. Pellett, Kyle Marchuk, Ngoc-Han T. Tran, Matthew F. Krummel, Dimitrios Stamou, Orion D. Weiner

The local rules that control cell shape and movement are not understood. Here, Pipathsouk et al. discover a novel nanoscale organization of a key actin regulator that could explain how cellular protrusions expand and self-straighten and how transcellular holes are repaired.

Article

| June 03 2021

KKT2/3 have unique centromere localization domains

Gabriele Marcianò, Midori Ishii, Olga O. Nerusheva, Bungo Akiyoshi

Kinetoplastids are evolutionarily divergent eukaryotes that have an unconventional set of kinetochore proteins. Marcianò et al. show that KKT2 and KKT3 play important roles in kinetochore assembly in Trypanosoma brucei. Centromere localization of these proteins is mediated by the unique centromere localization domain.

Article

| June 03 2021

Mechanism of kinetochore desumoylation by Ulp2

Yun Quan, Stephen M. Hinshaw, Pang-Che Wang, Stephen C. Harrison, Huilin Zhou

SUMO homeostasis promotes error-free chromosome segregation. Quan et al. report the structure of a targeting peptide of the Ulp2 desumoylase bound to yeast Ctf3/CENP-I. Disrupting the interaction produces hyper-sumoylated kinetochores, demonstrating the existence of a conserved and dedicated pathway for the regulation of kinetochore sumoylation.

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Volume 220,

Issue 6,

June 7, 2021

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Spotlight

| June 15 2021

A Leep1 into migration and macropinocytosis

Yvette W.H. Koh, Jennifer L. Stow

Koh and Stow highlight work from Yang et al. describing Leep1, a novel regulator of protrusions and macropinocytosis in Dictyostelium.

Review

| June 04 2021

Mechanisms of synapse formation

Thomas C. Südhof

Thomas Südhof discusses the cell-biological principles underlying the assembly of specific synaptic connections with defined properties that control neural circuits.

Spotlight

| June 03 2021

Robustness and innovation in membrane trafficking

Kaela S. Singleton, Victor Faundez

In this issue, Bowman et al. describe an unprecedented mechanism where two sorting complexes, AP-3 and BLOC-1, the latter bound to syntaxin 13, work as a fail-safe to recognize sorting signals in VAMP7, a membrane protein required for fusion to melanosomes. Their observations define one of the first examples of distributed robustness in membrane traffic mechanisms.

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MICAL2 enhances branched actin network disassembly by oxidizing Arp3B-containing Arp2/3 complexes

Moving simply: Naegleria crawls and feeds using an ancient Arp2/3-dependent mechanism

What's in a picture? The temptation of image manipulation

DOT1L modulates the senescence-associated secretory phenotype through epigenetic regulation of IL1A

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