Ricardo García's team uses atomic force microscopy to model the viscoelasticity of human cells.

Juan P Unfried, Juan P Unfried, Juan P Unfried, Juan P Unfried, Juan P Unfried, Sara from Bragança, Clara Aicart-Ramos, Juan P Unfried, Juan P Unfried, Juan P Unfried, Juan P Unfried, Juan P Unfried, Juan P Unfried, Juan P Unfried, Juan P Unfried, Fernando Moreno-Herrero, Oscar Llorca, Juan P Unfried, Puri Fortes

Abstract: Juan P Unfried (Juan P Unfried) Juan P Unfried. Here, Juan P Unfried (Juan P Unfried) Juan P Unfried, a novel lncRNA induced in HCC with oncogenic potential and a role in the ligation efficiency of DNA double-stranded breaks (a novel lncRNA induced in HCC with oncogenic potential and a role in the ligation efficiency of DNA double-stranded breaks). a novel lncRNA induced in HCC with oncogenic potential and a role in the ligation efficiency of DNA double-stranded breaks. a novel lncRNA induced in HCC with oncogenic potential and a role in the ligation efficiency of DNA double-stranded breaks. a novel lncRNA induced in HCC with oncogenic potential and a role in the ligation efficiency of DNA double-stranded breaks (NHEJ) a novel lncRNA induced in HCC with oncogenic potential and a role in the ligation efficiency of DNA double-stranded breaks. DNA damage induction in NIHCOLE-depleted cells further decreased HCC cell growth. DNA damage induction in NIHCOLE-depleted cells further decreased HCC cell growth. DNA damage induction in NIHCOLE-depleted cells further decreased HCC cell growth, DNA damage induction in NIHCOLE-depleted cells further decreased HCC cell growth, DNA damage induction in NIHCOLE-depleted cells further decreased HCC cell growth, DNA damage induction in NIHCOLE-depleted cells further decreased HCC cell growth, DNA damage induction in NIHCOLE-depleted cells further decreased HCC cell growth. DNA damage induction in NIHCOLE-depleted cells further decreased HCC cell growth. Collectively, these data show that NIHCOLE serves as a scaffold and facilitator of NHEJ machinery and confers an advantage to HCC cells, these data show that NIHCOLE serves as a scaffold and facilitator of NHEJ machinery and confers an advantage to HCC cells. these data show that NIHCOLE serves as a scaffold and facilitator of NHEJ machinery and confers an advantage to HCC cells: these data show that NIHCOLE serves as a scaffold and facilitator of NHEJ machinery and confers an advantage to HCC cells, these data show that NIHCOLE serves as a scaffold and facilitator of NHEJ machinery and confers an advantage to HCC cells.these data show that NIHCOLE serves as a scaffold and facilitator of NHEJ machinery and confers an advantage to HCC cells, these data show that NIHCOLE serves as a scaffold and facilitator of NHEJ machinery and confers an advantage to HCC cells. 4899.

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Immaculate Navarro-Lérida, Lucas Albacete–Lucas Albacete Miguel Angel Del Pozo

Abstract: Miguel Angel Del Pozo, Miguel Angel Del Pozo. Miguel Angel Del Pozo. Miguel Angel Del Pozo, including cell polarization and motility, including cell polarization and motility. including cell polarization and motility, including cell polarization and motility (including cell polarization and motility) including cell polarization and motility, including cell polarization and motility. including cell polarization and motility, recent research demonstrates that active pools of different Rho GTPases also localize to endomembranes and the nucleus. Carmen Suay-Corredera and, recent research demonstrates that active pools of different Rho GTPases also localize to endomembranes and the nucleus. recent research demonstrates that active pools of different Rho GTPases also localize to endomembranes and the nucleus.

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Mohinder Pal, Hugo Muñoz-Hernandez, Dennis Bjorklund, Lihong Zhou, Gianluca Degliesposti, J Mark Skehel, J Mark Skehel, J Mark Skehel, J Mark Skehel, J Mark Skehel J Mark Skehel

Abstract: The R2TP (RUVBL1-RUVBL2-RPAP3-PIH1D1) complex, in collaboration with heat shock protein 90 (HSP90), functions as a chaperone for the assembly and stability of protein complexes, including RNA polymerases, small nuclear ribonucleoprotein particles (snRNPs), and phosphatidylinositol 3-kinase (PI3K)-like kinases (PIKKs) such as TOR and SMG1. PIKK stabilization depends on an additional complex of TELO2, TTI1, and TTI2 (TT), whose structure and function are poorly understood. The cryoelectron microscopy (cryo-EM) structure of the human R2TP-TTT complex, together with biochemical experiments, reveals the mechanism of TOR recruitment to the R2TP-TTT chaperone. The HEAT-repeat TTT complex binds the kinase domain of TOR, without blocking its activity, and delivers TOR to the R2TP chaperone. In addition, TTT regulates the R2TP chaperone by inhibiting RUVBL1-RUVBL2 ATPase activity and by modulating the conformation and interactions of the PIH1D1 and RPAP3 components of R2TP. Taken together, our results show how TTT couples the recruitment of TOR to R2TP with the regulation of this chaperone system.

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Researchers from the group led by our coordinator Fernando Moreno-Herrero describe the role of CTP binding and hydrolysis in the activity of the parB protein and its binding to parS sequences..

Oscar Llorca's group with their research has helped determine the structure of a key nanomachine for the functioning of another, mTOR, important in cancer and nutrition, aging and other vital processes for the body.

Do not miss the review of the group by our coordinator Fernando Moreno-Herrero on the knowledge that can be obtained from the mechanical properties of DNA with single molecule experiments and molecular dynamics simulations.

New publication of Jorge Alegre's group, a literature review on hydrogels, where they focus on structural-mechanical correlations and hydrogel bioactivity.

Researchers from Jorge Alegre's group at the CNIC describe the role of nanomechanical alterations in certain pathogenic variants of cMyBP-C (cardiac myosin-binding protein-C) in the development of hypertrophic cardiomyopathy (HCM).

Angel Rivera-Calzada, Nikolaos Famelis, Oscar Llorca & Sebastian Geibel

Abstract:  Sebastian Geibel ( Sebastian Geibel) have a key role in the secretion of effector proteins in non-pathogenic mycobacteria and pathogenic mycobacteria such as Mycobacterium tuberculosis,  Sebastian Geibel.  Sebastian Geibel,  Sebastian Geibel 1.4  Sebastian Geibel,  Sebastian Geibel.  Sebastian Geibel, recent advances in the structural characterization of these secretion systems have revealed the intricate network of interactions of conserved components in the plasma membrane. recent advances in the structural characterization of these secretion systems have revealed the intricate network of interactions of conserved components in the plasma membrane, recent advances in the structural characterization of these secretion systems have revealed the intricate network of interactions of conserved components in the plasma membrane, recent advances in the structural characterization of these secretion systems have revealed the intricate network of interactions of conserved components in the plasma membrane. recent advances in the structural characterization of these secretion systems have revealed the intricate network of interactions of conserved components in the plasma membrane, we highlight the implications of these studies and the derived transport models, which provide new scenarios for targeting the deathly human pathogen we highlight the implications of these studies and the derived transport models. we highlight the implications of these studies and the derived transport models.

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