| Nome |
# |
|
Identification of a novel KRIT1 interactor involved in the control of actin cytoskeleton dynamics and cell resistance to oxidative stress, file e27ce426-cf4c-2581-e053-d805fe0acbaa
|
12.025
|
|
Reactive Oxygen Species: Friends and Foes of Signal Transduction, file e27ce426-e830-2581-e053-d805fe0acbaa
|
354
|
|
The muscle-specific laminin receptor alpha7 beta1 integrin negatively regulates alpha5 beta1 fibronectin receptor function., file e27ce426-ac6b-2581-e053-d805fe0acbaa
|
326
|
|
Oxidative Stress and Inflammation in Cerebral Cavernous Malformation Disease Pathogenesis: Two Sides of the Same Coin, file e27ce42a-df78-2581-e053-d805fe0acbaa
|
293
|
|
Focal adhesion and stress fiber formation is regulated by tyrosine phosphatase activity., file e27ce426-ae73-2581-e053-d805fe0acbaa
|
272
|
|
p125FAK tyrosine phosphorylation and focal adhesion assembly: studies with phosphotyrosine phosphatase inhibitors., file e27ce426-ac6a-2581-e053-d805fe0acbaa
|
265
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|
KRIT1 loss-of-function induces a chronic Nrf2-mediated adaptive homeostasis that sensitizes cells to oxidative stress: Implication for Cerebral Cavernous Malformation disease, file e27ce42c-8d81-2581-e053-d805fe0acbaa
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237
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|
Up-regulation of NADPH oxidase-mediated redox signaling contributes to the loss of barrier function in KRIT1 deficient endothelium, file e27ce42c-2b59-2581-e053-d805fe0acbaa
|
229
|
|
Altered expression of integrins in RSV-transformed chick epiphyseal chondrocytes., file e27ce426-9e21-2581-e053-d805fe0acbaa
|
226
|
|
Cytochrome P450 and matrix metalloproteinase genetic modifiers of disease severity in Cerebral Cavernous Malformation type 1, file e27ce428-b8d0-2581-e053-d805fe0acbaa
|
223
|
|
KRIT1 loss of function causes a ROS-dependent upregulation of c-Jun, file e27ce427-ba50-2581-e053-d805fe0acbaa
|
183
|
|
Integrin-induced epidermal growth factor (EGF) receptor activation requires c-Src and p130Cas and leads to phosphorylation of specific EGF receptor tyrosines., file e27ce426-ae77-2581-e053-d805fe0acbaa
|
181
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|
Production of novel antioxidative phenolic amides through heterologous expression of the plant's chlorogenic acid biosynthesis genes in yeast, file e27ce426-c213-2581-e053-d805fe0acbaa
|
169
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Data in support of sustained upregulation of adaptive redox homeostasis mechanisms caused by KRIT1 loss-of-function, file e27ce42c-73a9-2581-e053-d805fe0acbaa
|
168
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beta1-integrin cytoplasmic subdomains involved in dominant negative function., file e27ce426-b668-2581-e053-d805fe0acbaa
|
166
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Multifunctional Platinum@BSA-Rapamycin Nanocarriers for the Combinatorial Therapy of Cerebral Cavernous Malformation, file e27ce42d-7d7a-2581-e053-d805fe0acbaa
|
155
|
|
Beyond multiple mechanisms and a unique drug: Defective autophagy as pivotal player in cerebral cavernous malformation pathogenesis and implications for targeted therapies, file e27ce428-b7a2-2581-e053-d805fe0acbaa
|
154
|
|
Expression of beta 1B integrin isoform in CHO cells results in a dominant negative effect on cell adhesion and motility., file e27ce426-b1c6-2581-e053-d805fe0acbaa
|
153
|
|
Cellular processes underlying cerebral cavernous malformations: Autophagy as another point of view, file e27ce42a-f47b-2581-e053-d805fe0acbaa
|
153
|
|
Defective autophagy is a key feature of cerebral cavernous malformations, file e27ce427-b3ca-2581-e053-d805fe0acbaa
|
149
|
|
Nuclear translocation of integrin cytoplasmic domain-associated protein 1 stimulates cellular proliferation, file e27ce426-ac35-2581-e053-d805fe0acbaa
|
147
|
|
Molecular Crosstalk between Integrins and Cadherins: Do Reactive Oxygen Species Set the Talk?, file e27ce426-d4a9-2581-e053-d805fe0acbaa
|
147
|
|
Biological activities, health benefits, and therapeutic properties of avenanthramides: From skin protection to prevention and treatment of cerebrovascular diseases, file e27ce42d-83f6-2581-e053-d805fe0acbaa
|
144
|
|
Disruption of focal adhesions by integrin cytoplasmic domain-associated protein-1 alpha., file e27ce426-ac6c-2581-e053-d805fe0acbaa
|
142
|
|
Identification of the Kelch family protein Nd1-L as a novel molecular interactor of KRIT1, file e27ce426-ea06-2581-e053-d805fe0acbaa
|
138
|
|
The Interplay between ROS and Ras GTPases: Physiological and Pathological Implications, file e27ce426-d4a8-2581-e053-d805fe0acbaa
|
133
|
|
KRIT1 regulates the homeostasis of intracellular reactive oxygen species, file e27ce426-c1e5-2581-e053-d805fe0acbaa
|
126
|
|
Cross talk between beta(1) and alpha(V) integrins: beta(1) affects beta(3) mRNA stability., file e27ce426-ba1d-2581-e053-d805fe0acbaa
|
122
|
|
Vitamin D deficiency and the risk of cerebrovascular disease, file e27ce430-0941-2581-e053-d805fe0acbaa
|
111
|
|
RhoA activity is required for fibronectin assembly and counteracts beta1B integrin inhibitory effect in FRT epithelial cells., file e27ce426-b9a8-2581-e053-d805fe0acbaa
|
105
|
|
Integrin function and regulation in development., file e27ce426-ab61-2581-e053-d805fe0acbaa
|
103
|
|
KRIT1 Loss-Of-Function Associated with Cerebral Cavernous Malformation Disease Leads to Enhanced S-Glutathionylation of Distinct Structural and Regulatory Proteins, file e27ce42d-f335-2581-e053-d805fe0acbaa
|
102
|
|
Yeast-derived recombinant avenanthramides inhibit proliferation, migration and epithelial mesenchymal transition of colon cancer cells, file e27ce42d-53de-2581-e053-d805fe0acbaa
|
97
|
|
Intracellular antioxidant activity of biocompatible citrate-capped palladium nanozymes, file e27ce42f-1016-2581-e053-d805fe0acbaa
|
96
|
|
KRIT1 Deficiency Promotes Aortic Endothelial Dysfunction, file e27ce42e-ab8b-2581-e053-d805fe0acbaa
|
88
|
|
Helicobacter pylori type IV secretion apparatus exploits beta1 integrin in a novel RGD-independent manner, file e27ce426-c081-2581-e053-d805fe0acbaa
|
86
|
|
Dicarbonyl stress and s-glutathionylation in cerebrovascular diseases: A focus on cerebral cavernous malformations, file e27ce42f-9499-2581-e053-d805fe0acbaa
|
85
|
|
A de novo X;8 translocation creates a PTK2-THOC2 gene fusion with THOC2 expression knockdown in a patient with psychomotor retardation and congenital cerebellar hypoplasia, file e27ce426-e10a-2581-e053-d805fe0acbaa
|
79
|
|
beta1D integrin inhibits cell cycle progression in normal myoblasts and fibroblasts., file e27ce426-b11e-2581-e053-d805fe0acbaa
|
76
|
|
Evaluation of the bioactive properties of avenanthramide analogs produced in recombinant yeast, file e27ce429-f923-2581-e053-d805fe0acbaa
|
69
|
|
Ras Signaling - Methods and Protocols, file e27ce42d-6361-2581-e053-d805fe0acbaa
|
68
|
|
An international call for a new grading system for cerebral and cerebellar cavernomas, file e27ce434-95d3-2581-e053-d805fe0acbaa
|
68
|
|
Muscle beta1D integrin reinforces the cytoskeleton-matrix link: modulation of integrin adhesive function by alternative splicing, file e27ce426-ba3a-2581-e053-d805fe0acbaa
|
66
|
|
Protein kinase Cα regulates the nucleocytoplasmic shuttling of KRIT1, file e27ce431-1510-2581-e053-d805fe0acbaa
|
65
|
|
Next-Generation Sequencing Advances the Genetic Diagnosis of Cerebral Cavernous Malformation (CCM), file 62b89b52-d257-4b52-8ffd-1fc5084688a7
|
59
|
|
CCM Italia: pazienti, clinici e ricercatori “in rete” per migliorare conoscenza, management clinico e ricerca sulle Malformazioni Cavernose Cerebrali, file e27ce426-eba5-2581-e053-d805fe0acbaa
|
57
|
|
KRIT1 and Reactive Oxigen Species: a novel molecular pathway involved in Cerebral Cavernous Malformations., file e27ce426-e818-2581-e053-d805fe0acbaa
|
55
|
|
Novel insights into the relationship between KRIT1 and ROS homeostasis: KRIT1 loss-of-function causes a ROS-dependent upregulation of transcription factors involved in oxidative stress response., file e27ce426-e827-2581-e053-d805fe0acbaa
|
51
|
|
Identification of a novel KRIT1 interactor involved in the control of actin cytoskeleton dynamics and cell resistance to oxidative stress, file e27ce426-cf4b-2581-e053-d805fe0acbaa
|
46
|
|
KRIT1 loss-mediated upregulation of NOX1 in stromal cells promotes paracrine pro-angiogenic responses, file e27ce42e-ee06-2581-e053-d805fe0acbaa
|
46
|
|
Platinum nanozymes recover cellular ROS homeostasis in an oxidative stress-mediated disease model, file e27ce434-64dc-2581-e053-d805fe0acbaa
|
43
|
|
The integrin cytoplasmic domain-associated protein ICAP-1 binds and regulates Rho family GTPases during cell spreading, file e27ce42b-a901-2581-e053-d805fe0acbaa
|
16
|
|
Distant Recurrence of a Cerebral Cavernous Malformation in the Vicinity of a Developmental Venous Anomaly: Case Report of Local Oxy-Inflammatory Events, file 39889f0d-fc3c-4402-813d-f37c55cf04e6
|
14
|
|
Genetics and Molecular Biology of Cerebral Cavernous Malformations and CCM Italia, file e27ce426-eb9f-2581-e053-d805fe0acbaa
|
12
|
|
Heterozygous Loss of KRIT1 in Mice Affects Metabolic Functions of the Liver, Promoting Hepatic Oxidative and Glycative Stress, file 11d9b91b-21f5-4ae3-94cc-92ab09365d0a
|
11
|
|
Strategy for identifying repurposed drugs for the treatment of cerebral cavernous malformation, file e27ce427-d2c8-2581-e053-d805fe0acbaa
|
8
|
|
Towards precision nanomedicine for cerebrovascular diseases with emphasis on Cerebral Cavernous Malformation (CCM), file e27ce431-2bee-2581-e053-d805fe0acbaa
|
6
|
|
Multidrug-Loaded Lipid Nanoemulsions for the Combinatorial Treatment of Cerebral Cavernous Malformation Disease, file bbc29e2b-9058-4354-9f35-4ad30f52e01f
|
3
|
|
Identification of galectin-3 as a novel potential prognostic/predictive biomarker and therapeutic target for cerebral cavernous malformation disease, file d660a8c9-b978-4821-9d93-85bb8f350dc5
|
3
|
|
Evaluation of the bioactive properties of avenanthramide analogs produced in recombinant yeast, file e27ce429-f089-2581-e053-d805fe0acbaa
|
3
|
|
KRIT1 Regulates the Homeostasis of Intracellular Reactive Oxygen Species., file e27ce426-c77a-2581-e053-d805fe0acbaa
|
2
|
|
EndMT contributes to the onset and progression of cerebral cavernous malformations, file e27ce426-fe6e-2581-e053-d805fe0acbaa
|
2
|
|
Platinum nanozymes recover cellular ROS homeostasis in an oxidative stress-mediated disease model, file e27ce42a-d85e-2581-e053-d805fe0acbaa
|
2
|
|
KRIT1: A Traffic Warden at the Busy Crossroads Between Redox Signaling and the Pathogenesis of Cerebral Cavernous Malformation Disease, file 8e282868-12e4-45ee-9a95-20e625f573f1
|
1
|
|
Structural and functional differences between KRIT1A and KRIT1B isoforms: a framework for understanding CCM pathogenesis, file e27ce426-ba04-2581-e053-d805fe0acbaa
|
1
|
|
KRIT1, a disease gene responsible for cerebral cavernous malformations (CCM), is involved in cell defences against oxidative stress., file e27ce426-e9cc-2581-e053-d805fe0acbaa
|
1
|
|
miR-21 coordinates tumor growth and modulates KRIT1 levels, file e27ce426-fa01-2581-e053-d805fe0acbaa
|
1
|
|
Cerebral cavernous malformation (CCM) disease: from monogenic forms to genetic susceptibility factors, file e27ce428-1be6-2581-e053-d805fe0acbaa
|
1
|
|
Yersinia enterocolitica exploits different pathways to accomplish adhesion and toxin injection into host cells., file e27ce428-1d60-2581-e053-d805fe0acbaa
|
1
|
|
Adhesion to Matrix Proteins, file e27ce42d-7162-2581-e053-d805fe0acbaa
|
1
|
|
Purification of fibronectin from human plasma., file e27ce42d-8565-2581-e053-d805fe0acbaa
|
1
|
|
Polymorphisms in genes related to oxidative stress and inflammation: Emerging links with the pathogenesis and severity of Cerebral Cavernous Malformation disease, file e27ce432-035c-2581-e053-d805fe0acbaa
|
1
|
| Totale |
18.992 |