scholarly article | Q13442814 |
P50 | author | Linya You | Q86440597 |
P2093 | author name string | Lin Li | |
Xiang-Jiao Yang | |||
Go-Woon Kim | |||
Mohammad Ghorbani | |||
P2860 | cites work | Myc-Nick: A Cytoplasmic Cleavage Product of Myc that Promotes α-Tubulin Acetylation and Cell Differentiation | Q24294609 |
The human Sir2 ortholog, SIRT2, is an NAD+-dependent tubulin deacetylase | Q24296836 | ||
HDAC6 is a microtubule-associated deacetylase | Q24298013 | ||
MEC-17 is an alpha-tubulin acetyltransferase | Q24299301 | ||
Regulation of cellular metabolism by protein lysine acetylation | Q24300091 | ||
Class II histone deacetylases: versatile regulators | Q24300376 | ||
Structure of the α-tubulin acetyltransferase, αTAT1, and implications for tubulin-specific acetylation | Q24300995 | ||
A novel CNS gene required for neuronal migration and involved in X-linked subcortical laminar heterotopia and lissencephaly syndrome | Q24314944 | ||
Elongator controls the migration and differentiation of cortical neurons through acetylation of alpha-tubulin | Q24324449 | ||
Impaired long-term potentiation, spatial learning, and hippocampal development in fyn mutant mice | Q24338349 | ||
The many roles of histone deacetylases in development and physiology: implications for disease and therapy | Q24628821 | ||
ACETYLATION AND METHYLATION OF HISTONES AND THEIR POSSIBLE ROLE IN THE REGULATION OF RNA SYNTHESIS | Q24629431 | ||
Lysine acetylation: codified crosstalk with other posttranslational modifications | Q24644959 | ||
Rescuing impairment of long-term potentiation in fyn-deficient mice by introducing Fyn transgene | Q24676918 | ||
Atomic resolution structure of human -tubulin acetyltransferase bound to acetyl-CoA | Q27674573 | ||
Crystal Structures of Tubulin Acetyltransferase Reveal a Conserved Catalytic Core and the Plasticity of the Essential N Terminus | Q27674774 | ||
Lysine acetylation targets protein complexes and co-regulates major cellular functions | Q27860589 | ||
The language of covalent histone modifications | Q27860931 | ||
Chromatin modifications and their function | Q27861067 | ||
Microtubule acetylation promotes kinesin-1 binding and transport. | Q27919704 | ||
Mice lacking histone deacetylase 6 have hyperacetylated tubulin but are viable and develop normally | Q27919716 | ||
Systematic functional prioritization of protein posttranslational modifications | Q27936051 | ||
The major alpha-tubulin K40 acetyltransferase alphaTAT1 promotes rapid ciliogenesis and efficient mechanosensation | Q28000035 | ||
The complex language of chromatin regulation during transcription | Q28131748 | ||
Doublecortin is a microtubule-associated protein and is expressed widely by migrating neurons | Q28139253 | ||
Induction of neurogenesis in the neocortex of adult mice | Q28139868 | ||
HATs and HDACs: from structure, function and regulation to novel strategies for therapy and prevention | Q28240437 | ||
Substrate and functional diversity of lysine acetylation revealed by a proteomics survey | Q28258445 | ||
Doublecortin, a brain-specific gene mutated in human X-linked lissencephaly and double cortex syndrome, encodes a putative signaling protein | Q28263735 | ||
SIRT2 ablation has no effect on tubulin acetylation in brain, cholesterol biosynthesis or the progression of Huntington's disease phenotypes in vivo | Q28482270 | ||
HDAC-6 interacts with and deacetylates tubulin and microtubules in vivo | Q28510434 | ||
In vivo destabilization of dynamic microtubules by HDAC6-mediated deacetylation | Q28585062 | ||
Post-translational modifications regulate microtubule function | Q29036830 | ||
The primary cilium: a signalling centre during vertebrate development | Q29547197 | ||
Mechanisms and functional implications of adult neurogenesis | Q29547295 | ||
Acetylation: a regulatory modification to rival phosphorylation? | Q29614886 | ||
Acetylation of metabolic enzymes coordinates carbon source utilization and metabolic flux | Q29615102 | ||
New nomenclature for chromatin-modifying enzymes | Q29616425 | ||
MEC-12, an alpha-tubulin required for touch sensitivity in C. elegans | Q47069447 | ||
Doublecortin is a developmentally regulated, microtubule-associated protein expressed in migrating and differentiating neurons | Q48168037 | ||
MEC-17 deficiency leads to reduced α-tubulin acetylation and impaired migration of cortical neurons. | Q48379537 | ||
Induction of pluripotent stem cells from fibroblast cultures | Q48770547 | ||
Eukaryotic domain of unknown function DUF738 belongs to Gcn5-related N-acetyltransferase superfamily. | Q53582509 | ||
HDAC6 controls the kinetics of platelet activation | Q61585845 | ||
Chlamydomonas alpha-tubulin is posttranslationally modified by acetylation on the epsilon-amino group of a lysine | Q69940175 | ||
High level expression of nonacetylatable α‐tubulin in Chlamydomonas reinhardtii | Q72086395 | ||
The Rpd3/Hda1 family of lysine deacetylases: from bacteria and yeast to mice and men | Q29619117 | ||
Histone acetyltransferase complexes: one size doesn't fit all | Q29620006 | ||
Microtubule stabilization reduces scarring and causes axon regeneration after spinal cord injury | Q30513561 | ||
Tubulin acetyltransferase αTAT1 destabilizes microtubules independently of its acetylation activity | Q30537332 | ||
The Caenorhabditis elegans Elongator complex regulates neuronal alpha-tubulin acetylation | Q33526997 | ||
Posttranslational modifications of tubulin and the polarized transport of kinesin-1 in neurons. | Q33647021 | ||
ER sliding dynamics and ER-mitochondrial contacts occur on acetylated microtubules | Q34069992 | ||
Exploring the yeast acetylome using functional genomics | Q34111422 | ||
Loss of deacetylation activity of Hdac6 affects emotional behavior in mice | Q34157277 | ||
Functional significance of histone deacetylase diversity | Q34183839 | ||
Post-translational regulation of the microtubule cytoskeleton: mechanisms and functions | Q34232911 | ||
Clostridium difficile toxin A decreases acetylation of tubulin, leading to microtubule depolymerization through activation of histone deacetylase 6, and this mediates acute inflammation | Q34236680 | ||
Identification of an acetylation site of Chlamydomonas alpha-tubulin | Q34338575 | ||
Luminal localization of α-tubulin K40 acetylation by cryo-EM analysis of fab-labeled microtubules | Q34461085 | ||
Deacetylase enzymes: biological functions and the use of small-molecule inhibitors | Q34528043 | ||
Genetically separable functions of the MEC-17 tubulin acetyltransferase affect microtubule organization | Q36055162 | ||
Cytoplasmic microtubules containing acetylated alpha-tubulin in Chlamydomonas reinhardtii: spatial arrangement and properties | Q36213095 | ||
Monoclonal antibodies specific for an acetylated form of alpha-tubulin recognize the antigen in cilia and flagella from a variety of organisms | Q36213951 | ||
Microtubules containing acetylated alpha-tubulin in mammalian cells in culture | Q36215921 | ||
Individual microtubules in the axon consist of domains that differ in both composition and stability | Q36223418 | ||
The initiation of neurite outgrowth by sympathetic neurons grown in vitro does not depend on assembly of microtubules | Q36234856 | ||
Microtubule stabilization specifies initial neuronal polarization | Q36446628 | ||
Posttranslational acetylation of α-tubulin constrains protofilament number in native microtubules | Q36894917 | ||
Cross-regulation of histone modifications | Q36994157 | ||
Lysine acetylation is a highly abundant and evolutionarily conserved modification in Escherichia coli | Q37080670 | ||
Post-translational modifications of tubulin in the nervous system | Q37403762 | ||
Facilitating axon regeneration in the injured CNS by microtubules stabilization. | Q37941706 | ||
Mechanism of microtubule stabilization by doublecortin | Q38575732 | ||
The tumor suppressor kinase LKB1 activates the downstream kinases SIK2 and SIK3 to stimulate nuclear export of class IIa histone deacetylases | Q39197659 | ||
Dephosphorylation at a conserved SP motif governs cAMP sensitivity and nuclear localization of class IIa histone deacetylases | Q39214537 | ||
Regulation of microtubule dynamics by inhibition of the tubulin deacetylase HDAC6. | Q39802173 | ||
Histone deacetylase 6 inhibition compensates for the transport deficit in Huntington's disease by increasing tubulin acetylation | Q40152899 | ||
Sumoylation of Krüppel-like factor 4 inhibits pluripotency induction but promotes adipocyte differentiation. | Q40324916 | ||
Acetylation of microtubules influences their sensitivity to severing by katanin in neurons and fibroblasts | Q41377311 | ||
Acetylation of lysine 40 in alpha-tubulin is not essential in Tetrahymena thermophila | Q42771369 | ||
Cell biology: Tubulin acetylation and cell motility | Q42806332 | ||
A single amino-acid substitution at lysine 40 of an Arabidopsis thalianaα-tubulin causes extensive cell proliferation and expansion defects. | Q43924854 | ||
N-acetyltransferase ARD1-NAT1 regulates neuronal dendritic development. | Q46193500 | ||
P433 | issue | 28 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | cell biology | Q7141 |
Alpha tubulin acetyltransferase 1 | Q21116742 | ||
Alpha tubulin acetyltransferase 1 | Q21983531 | ||
P304 | page(s) | 20334-20350 | |
P577 | publication date | 2013-05-28 | |
P1433 | published in | Journal of Biological Chemistry | Q867727 |
P1476 | title | Mice lacking α-tubulin acetyltransferase 1 are viable but display α-tubulin acetylation deficiency and dentate gyrus distortion | |
P478 | volume | 288 |
Q35507882 | A Mec17-Myosin II Effector Axis Coordinates Microtubule Acetylation and Actin Dynamics to Control Primary Cilium Biogenesis |
Q92384515 | ATAT1-enriched vesicles promote microtubule acetylation via axonal transport |
Q48473545 | Adrenalectomy facilitates ATAT1 expression and α-tubulin acetylation in ACTH-producing corticotrophs |
Q59799503 | Alpha-tubulin acetyltransferase/MEC-17 regulates cancer cell migration and invasion through epithelial-mesenchymal transition suppression and cell polarity disruption |
Q90639155 | Axonal transport: Driving synaptic function |
Q37285259 | Control of cortex development by ULK4, a rare risk gene for mental disorders including schizophrenia |
Q89281684 | Coordination of microtubule acetylation and the actin cytoskeleton by formins |
Q34457162 | Deficiency of the chromatin regulator BRPF1 causes abnormal brain development. |
Q35485464 | Dido mutations trigger perinatal death and generate brain abnormalities and behavioral alterations in surviving adult mice |
Q88990440 | Dynamic localization of α-tubulin acetyltransferase ATAT1 through the cell cycle in human fibroblastic KD cells |
Q47419187 | Effects of mutating α-tubulin lysine 40 on sensory dendrite development. |
Q33688273 | Effects of αTAT1 and HDAC5 on axonal regeneration in adult neurons. |
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Q33784606 | Expression atlas of the multivalent epigenetic regulator Brpf1 and its requirement for survival of mouse embryos. |
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Q42486628 | Intracellular localization of α-tubulin acetyltransferase ATAT1 in rat ciliated cells. |
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Q33709311 | Longevity pathways and memory aging |
Q57796361 | Microtubule Acetylation Is Required for Mechanosensation in Drosophila |
Q38979974 | Microtubule acetylation amplifies p38 kinase signalling and anti-inflammatory IL-10 production |
Q27324158 | Molecular basis for age-dependent microtubule acetylation by tubulin acetyltransferase |
Q36298070 | New HDAC6-mediated deacetylation sites of tubulin in the mouse brain identified by quantitative mass spectrometry |
Q37412510 | Oncogenic microtubule hyperacetylation through BEX4-mediated sirtuin 2 inhibition |
Q35132313 | Post-translational modifications of tubulin: pathways to functional diversity of microtubules |
Q39047528 | Posttranslational Modifications of Tubulin and Cilia |
Q39314105 | Psychiatric behaviors associated with cytoskeletal defects in radial neuronal migration |
Q53224985 | Resveratrol inhibits the acetylated α-tubulin-mediated assembly of the NLRP3-inflammasome. |
Q52606307 | Rudhira/BCAS3 is essential for mouse development and cardiovascular patterning. |
Q61813218 | Synapse maintenance is impacted by ATAT-2 tubulin acetyltransferase activity and the RPM-1 signaling hub |
Q52716095 | TAK1 activation of alpha-TAT1 and microtubule hyperacetylation control AKT signaling and cell growth. |
Q88763807 | TLR-activated repression of Fe-S cluster biogenesis drives a metabolic shift and alters histone and tubulin acetylation |
Q28834427 | TgATAT-Mediated α-Tubulin Acetylation Is Required for Division of the Protozoan Parasite Toxoplasma gondii |
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Q48268412 | The actin-MRTF-SRF transcriptional circuit controls tubulin acetylation via α-TAT1 gene expression |
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Q39001599 | The elongation of primary cilia via the acetylation of α-tubulin by the treatment with lithium chloride in human fibroblast KD cells |
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Q48088261 | α-Tubulin Acetylation Restricts Axon Overbranching by Dampening Microtubule Plus-End Dynamics in Neurons |
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