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Search results 1701 to 1800 out of 1899 for Cdk5

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Type Details Score
Publication
17610816 | J:132093
First Author: Qu D
Year: 2007
Journal: Neuron
Title: Role of Cdk5-mediated phosphorylation of Prx2 in MPTP toxicity and Parkinson's disease.
Volume: 55
Issue: 1
Pages: 37-52
Publication
16242410 | J:107584
First Author: Kumar A
Year: 2005
Journal: Neuron
Title: Chromatin remodeling is a key mechanism underlying cocaine-induced plasticity in striatum.
Volume: 48
Issue: 2
Pages: 303-14
Publication
32690709 | J:299479
First Author: Carter AM
Year: 2020
Journal: Proc Natl Acad Sci U S A
Title: Phosphoprotein-based biomarkers as predictors for cancer therapy.
Volume: 117
Issue: 31
Pages: 18401-18411
Publication
30642955 | J:270916
First Author: Ko SY
Year: 2019
Journal: Proc Natl Acad Sci U S A
Title: Transient receptor potential melastatin 2 governs stress-induced depressive-like behaviors.
Volume: 116
Issue: 5
Pages: 1770-1775
Publication
27498863 | J:238967
First Author: Stromsdorfer KL
Year: 2016
Journal: Cell Rep
Title: NAMPT-Mediated NAD(+) Biosynthesis in Adipocytes Regulates Adipose Tissue Function and Multi-organ Insulin Sensitivity in Mice.
Volume: 16
Issue: 7
Pages: 1851-60
Publication
28733456 | J:245098
First Author: Lindqvist J
Year: 2017
Journal: J Cell Sci
Title: Nestin contributes to skeletal muscle homeostasis and regeneration.
Volume: 130
Issue: 17
Pages: 2833-2842
Publication
25995364 | J:223292
First Author: Rei D
Year: 2015
Journal: Proc Natl Acad Sci U S A
Title: Basolateral amygdala bidirectionally modulates stress-induced hippocampal learning and memory deficits through a p25/Cdk5-dependent pathway.
Volume: 112
Issue: 23
Pages: 7291-6
Publication
32047117 | J:302383
 
First Author: Pujol CN
Year: 2020
Journal: Sci Signal
Title: Dynamic interactions of the 5-HT6 receptor with protein partners control dendritic tree morphogenesis.
Volume: 13
Issue: 618
Publication
10923673 | J:354376
First Author: Humbert S
Year: 2000
Journal: Neuroreport
Title: Synaptic localization of p39, a neuronal activator of cdk5.
Volume: 11
Issue: 10
Pages: 2213-6
Publication
18936252 | J:140648
First Author: Sakurai T
Year: 2008
Journal: J Cell Biol
Title: Membrane microdomain switching: a regulatory mechanism of amyloid precursor protein processing.
Volume: 183
Issue: 2
Pages: 339-52
Publication
22243750 | J:180653
First Author: Taniguchi M
Year: 2012
Journal: Neuron
Title: Histone deacetylase 5 limits cocaine reward through cAMP-induced nuclear import.
Volume: 73
Issue: 1
Pages: 108-20
Publication
25316675 | J:217435
First Author: Choi JH
Year: 2014
Journal: Genes Dev
Title: Thrap3 docks on phosphoserine 273 of PPARγ and controls diabetic gene programming.
Volume: 28
Issue: 21
Pages: 2361-9
Publication
35977518 | J:330816
First Author: Gupta P
Year: 2022
Journal: Cell Rep
Title: Genetic impairment of succinate metabolism disrupts bioenergetic sensing in adrenal neuroendocrine cancer.
Volume: 40
Issue: 7
Pages: 111218
Publication
29632206 | J:261328
First Author: Zou J
Year: 2018
Journal: Proc Natl Acad Sci U S A
Title: Neddylation mediates ventricular chamber maturation through repression of Hippo signaling.
Volume: 115
Issue: 17
Pages: E4101-E4110
Publication
22898775 | J:187715
First Author: Xie L
Year: 2012
Journal: Dev Cell
Title: Tbx5-hedgehog molecular networks are essential in the second heart field for atrial septation.
Volume: 23
Issue: 2
Pages: 280-91
Publication
23359859 | J:198011
 
First Author: Eom T
Year: 2013
Journal: Elife
Title: NOVA-dependent regulation of cryptic NMD exons controls synaptic protein levels after seizure.
Volume: 2
Pages: e00178
Publication
34059773 | J:306320
First Author: Ho UY
Year: 2021
Journal: Commun Biol
Title: WDR62 is required for centriole duplication in spermatogenesis and manchette removal in spermiogenesis.
Volume: 4
Issue: 1
Pages: 645
Protein
Q3UW67
Organism: Mus musculus/domesticus
Length: 190  
Fragment?: false
Protein
D6RJ19
Organism: Mus musculus/domesticus
Length: 97  
Fragment?: false
Protein
B7FAT1
Organism: Mus musculus/domesticus
Length: 96  
Fragment?: true
Publication
20584901 | -
First Author: Arragain S
Year: 2010
Journal: J Biol Chem
Title: Identification of eukaryotic and prokaryotic methylthiotransferase for biosynthesis of 2-methylthio-N6-threonylcarbamoyladenosine in tRNA.
Volume: 285
Issue: 37
Pages: 28425-33
Publication
10025422 | -
First Author: Antoine JC
Year: 1999
Journal: Arch Neurol
Title: Antiamphiphysin antibodies are associated with various paraneoplastic neurological syndromes and tumors.
Volume: 56
Issue: 2
Pages: 172-7
Publication
18252828 | -
First Author: Anton BP
Year: 2008
Journal: Proc Natl Acad Sci U S A
Title: RimO, a MiaB-like enzyme, methylthiolates the universally conserved Asp88 residue of ribosomal protein S12 in Escherichia coli.
Volume: 105
Issue: 6
Pages: 1826-31
Publication
15289575 | -
First Author: Nicolet Y
Year: 2004
Journal: Nucleic Acids Res
Title: AdoMet radical proteins--from structure to evolution--alignment of divergent protein sequences reveals strong secondary structure element conservation.
Volume: 32
Issue: 13
Pages: 4015-25
Protein Domain
IPR005839 | Methylthiotransferase
Type: Family
Description: The methylthiotransferase (MTTase) or miaB-like family is named after the (dimethylallyl)adenosine tRNA MTTase miaB protein, which catalyses a C-H to C-S bond conversion in the methylthiolation of tRNA. A related bacterial enzyme RimO performs a similar methylthiolation, but on a protein substrate. RimO acts on the ribosomal protein S12 and forms a separate MTTase subfamily. The miaB-subfamily includes mammalian CDK5 regulatory subunit-associated proteins and similar proteins in other eukaryotes. Two other subfamilies, yqeV and CDKAL1, are named after a Bacillus subtilis and a human protein, respectively. While yqeV-like proteins are found in bacteria, CDKAL1 subfamily members occur in eukaryotes and in archaebacteria [].The likely MTTases from these 4 subfamilies contain an N-terminal MTTase domain, a central radical generating fold and a C-terminal TRAM domain (see ). The core forms a radical SAM fold (or AdoMet radical), containing a cysteine motif CxxxCxxC that binds a [4Fe-4S]cluster [, , ]. A reducing equivalent from the [4Fe-4S]+ cluster is used to cleave S-adenosylmethionine (SAM) to generate methionine and a 5'-deoxyadenosyl radical. The latter is thought to produce a reactive substrate radical that is amenable to sulphur insertion [, ]. The N-terminal MTTase domain contains 3 cysteines that bind a second [4Fe-4S]cluster, in addition to the radical-generating [4Fe-4S]cluster, which could be involved in the thiolation reaction. The C-terminal TRAM domain is not shared with other radical SAM proteins outside the MTTase family. The TRAM domain can bind to RNA substrate and seems to be important for substrate recognition. The tertiary structure of the central radical SAM fold has six beta/alpha motifs resembling a three-quarter TIM barrel core []. The N-terminal MTTase domain might form an additional [beta/alpha]2 TIM barrel unit [].
Protein Domain
IPR038135 | Methylthiotransferase_N_sf
Type: Homologous_superfamily
Description: The methylthiotransferase (MTTase) or miaB-like family is named after the (dimethylallyl)adenosine tRNA MTTase miaB protein, which catalyses a C-H to C-S bond conversion in the methylthiolation of tRNA. A related bacterial enzyme rimO performs a similar methylthiolation, but on a protein substrate. RimO acts on the ribosomal protein S12 and forms a separate MTTase subfamily. The miaB-subfamily includes mammalian CDK5 regulatory subunit-associated proteins and similar proteins in other eukaryotes. Two other subfamilies, yqeV and CDKAL1, are named after a Bacillus subtilis and a human protein, respectively. While yqeV-like proteins are found in bacteria, CDKAL1 subfamily members occur in eukaryotes and in archaebacteria. The likely MTTases from these 4 subfamilies contain an N-terminal MTTase domain, a central radical generating fold and a C-terminal TRAM domain (see ). The core forms a radical SAM fold (or AdoMet radical), containing a cysteine motif CxxxCxxC that binds a [4Fe-4S]cluster [, , ]. A reducing equivalent from the [4Fe-4S]+ cluster is used to cleave S-adenosylmethionine (SAM) to generate methionine and a 5'-deoxyadenosyl radical. The latter is thought to produce a reactive substrate radical that is amenable to sulphur insertion [, ]. The N-terminal MTTase domain contains 3 cysteines that bind a second [4Fe-4S]cluster, in addition to the radical-generating [4Fe-4S]cluster, which could be involved in the thiolation reaction. The C-terminal TRAM domain is not shared with other radical SAM proteins outside the MTTase family. The TRAM domain can bind to RNA substrate and seems to be important for substrate recognition. The tertiary structure of the central radical SAM fold has six beta/alpha motifs resembling a three-quarter TIM barrel core (see ) []. The N-terminal MTTase domain might form an additional [beta/alpha]2 TIM barrel unit [].
Protein Domain
IPR020612 | Methylthiotransferase_CS
Type: Conserved_site
Description: The methylthiotransferase (MTTase) or miaB-like family is named after the (dimethylallyl)adenosine tRNA MTTase miaB protein, which catalyses a C-H to C-S bond conversion in the methylthiolation of tRNA. A related bacterial enzyme rimO performs a similar methylthiolation, but on a protein substrate. RimO acts on the ribosomal protein S12 andforms a separate MTTase subfamily. The miaB-subfamily includes mammalian CDK5 regulatory subunit-associated proteins and similar proteins in other eukaryotes. Two other subfamilies, yqeV and CDKAL1, are named after a Bacillus subtilis and a human protein, respectively. While yqeV-like proteins are found in bacteria, CDKAL1 subfamily members occur in eukaryotes and in archaebacteria. The likely MTTases from these 4 subfamilies contain an N-terminal MTTase domain, a central radical generating fold and a C-terminal TRAM domain (see ). The core forms a radical SAM fold (or AdoMet radical), containing a cysteine motif CxxxCxxC that binds a [4Fe-4S]cluster [, , ]. A reducing equivalent from the [4Fe-4S]+ cluster is used to cleave S-adenosylmethionine (SAM) to generate methionine and a 5'-deoxyadenosyl radical. The latter is thought to produce a reactive substrate radical that is amenable to sulphur insertion [, ]. The N-terminal MTTase domain contains 3 cysteines that bind a second [4Fe-4S]cluster, in addition to the radical-generating [4Fe-4S]cluster, which could be involved in the thiolation reaction. The C-terminal TRAM domain is not shared with other radical SAM proteins outside the MTTase family. The TRAM domain can bind to RNA substrate and seems to be important for substrate recognition. The tertiary structure of the central radical SAM fold has six beta/alpha motifs resembling a three-quarter TIM barrel core (see ) []. The N-terminal MTTase domain might form an additional [beta/alpha]2 TIM barrel unit []. This entry represents a conserved site containing three of the conserved cysteines that form the motif in the central radical SAM fold.
Protein Domain
IPR003017 | Amphiphysin_1
Type: Family
Description: Amphiphysins belong to the expanding BAR (Bin-Amphiphysin-Rvsp) family proteins, all members of which share a highly conserved N-terminal BAR domain, which has predicted coiled-coil structures required for amphiphysin dimerisation and plasma membrane interaction []. Almost all members also share a conserved C-terminal Src homology 3 (SH3) domain, which mediates their interactions with the GTPase dynamin and the inositol-5'-phosphatase synaptojanin 1 in vertebrates and with actin in yeast. The central region of all these proteins is most variable. In mammals, the central region of amphiphysin I and amphiphysin IIa contains a proline-arginine-rich region for endophilin binding and a CLAP domain, for binding to clathrin and AP-2. The interactions mediated by both the central and C-terminal domains are believed to be modulated by protein phosphorylation [, ].Amphiphysins are proteins involved in clathrin-mediated endocytosis clathrin-mediated endocytosis, actin function, and signalling pathways [, ].Amphiphysin 1 was first identified in 1992 as a brain protein that was partially-associated with synaptic vesicles. Following its cloning, it was also realised to be a human auto-antigen that is detected in a rare neurological disease, Stiff-Man Syndrome, and also in certain types of cancer []. Amphiphysin 1 senses and facilitates membrane curvature to mediate synaptic vesicles invagination and fission during newly retrieved presynaptic vesicle formation and also acts as a linker protein binding with dynamin, clathrin, Amphiphysin II, and other dephosphins in the clathrin-coated complex. Amphiphysin 1 is cleaved an asparagine endopeptidase (AEP), which generates afragment that increases with aging. This fragment disrupts the normal endocytic function of Amphiphysin 1, leading to synaptic dysfunction, as it activates CDK5 inducing tau hyperphosphorylation. Therefore, Amphiphysin 1 posttranslational modification contributes to pathogenesis of Alzheimer's disease, being the AEP a therapeutic target [].
Protein Domain
IPR013848 | Methylthiotransferase_N
Type: Domain
Description: The methylthiotransferase (MTTase) or miaB-like family is named after the (dimethylallyl)adenosine tRNA MTTase miaB protein, which catalyses a C-H to C-S bond conversion in the methylthiolation of tRNA. A related bacterial enzyme rimO performs a similar methylthiolation, but on a protein substrate. RimO acts on the ribosomal protein S12 and forms a separate MTTase subfamily. The miaB-subfamily includes mammalian CDK5 regulatory subunit-associated proteins and similar proteins in other eukaryotes. Two other subfamilies, yqeV and CDKAL1, are named after a Bacillus subtilis and a human protein, respectively. While yqeV-like proteins are found in bacteria, CDKAL1 subfamily members occur in eukaryotes and in archaebacteria. The likely MTTases from these 4 subfamilies contain an N-terminal MTTase domain, a central radical generating fold and a C-terminal TRAM domain (see ). The core forms a radical SAM fold (or AdoMet radical), containing a cysteine motif CxxxCxxC that binds a [4Fe-4S]cluster [, , ]. A reducing equivalent from the [4Fe-4S]+ cluster is used to cleave S-adenosylmethionine (SAM) to generate methionine and a 5'-deoxyadenosyl radical. The latter is thought to produce a reactive substrate radical that is amenable to sulphur insertion [, ]. The N-terminal MTTase domain contains 3 cysteines that bind a second [4Fe-4S]cluster, in addition to the radical-generating [4Fe-4S]cluster, which could be involved in the thiolation reaction. The C-terminal TRAM domain is not shared with other radical SAM proteins outside the MTTase family. The TRAM domain can bind to RNA substrate and seems to be important for substrate recognition. The tertiary structure of the central radical SAM fold has six beta/alpha motifs resembling a three-quarter TIM barrel core (see ) []. The N-terminal MTTase domain might form an additional [beta/alpha]2 TIM barrel unit [].
Protein Coding Gene
MGI:101764 | Cdk5r1
Type: protein_coding_gene
Organism: mouse, laboratory
Publication
12796778 | J:84075
First Author: Toyo-oka K
Year: 2003
Journal: Nat Genet
Title: 14-3-3epsilon is important for neuronal migration by binding to NUDEL: a molecular explanation for Miller-Dieker syndrome.
Volume: 34
Issue: 3
Pages: 274-85
Publication
16203747 | J:102751
First Author: Toyo-Oka K
Year: 2005
Journal: Hum Mol Genet
Title: Recruitment of katanin p60 by phosphorylated NDEL1, an LIS1 interacting protein, is essential for mitotic cell division and neuronal migration.
Volume: 14
Issue: 21
Pages: 3113-28
Publication
21566658 | J:203098
First Author: Pao PC
Year: 2011
Journal: Cell Death Differ
Title: A novel RING finger protein, Znf179, modulates cell cycle exit and neuronal differentiation of P19 embryonal carcinoma cells.
Volume: 18
Issue: 11
Pages: 1791-804
Publication
19633357 | J:155715
First Author: Fernando P
Year: 2009
Journal: J Biol Chem
Title: Bin1 SRC homology 3 domain acts as a scaffold for myofiber sarcomere assembly.
Volume: 284
Issue: 40
Pages: 27674-86
Publication
14985430 | J:90122
First Author: Beffert U
Year: 2004
Journal: J Neurosci
Title: Reelin and cyclin-dependent kinase 5-dependent signals cooperate in regulating neuronal migration and synaptic transmission.
Volume: 24
Issue: 8
Pages: 1897-906
Publication
22753194 | J:202201
First Author: Bai B
Year: 2012
Journal: Circulation
Title: Cyclin-dependent kinase 5-mediated hyperphosphorylation of sirtuin-1 contributes to the development of endothelial senescence and atherosclerosis.
Volume: 126
Issue: 6
Pages: 729-40
Publication
18606155 | J:139872
 
First Author: Laporte V
Year: 2008
Journal: Brain Res
Title: CD40 ligation mediates plaque-associated tau phosphorylation in beta-amyloid overproducing mice.
Volume: 1231
Pages: 132-42
Publication
16380265 | J:106863
First Author: Paratcha G
Year: 2006
Journal: Mol Cell Neurosci
Title: GDNF is a chemoattractant factor for neuronal precursor cells in the rostral migratory stream.
Volume: 31
Issue: 3
Pages: 505-14
Publication
16525053 | J:106228
First Author: Hallows JL
Year: 2006
Journal: J Neurosci
Title: p35/p25 is not essential for tau and cytoskeletal pathology or neuronal loss in Niemann-Pick type C disease.
Volume: 26
Issue: 10
Pages: 2738-44
Publication
29058287 | J:310938
First Author: Ba L
Year: 2017
Journal: J Huazhong Univ Sci Technolog Med Sci
Title: Aberrant activation of Cdc2/cyclin B1 is involved in initiation of cytoskeletal pathology in murine Niemann-Pick disease type C.
Volume: 37
Issue: 5
Pages: 732-739
Publication
12151531 | J:78091
First Author: Bu B
Year: 2002
Journal: J Neurosci
Title: Deregulation of cdk5, hyperphosphorylation, and cytoskeletal pathology in the Niemann-Pick type C murine model.
Volume: 22
Issue: 15
Pages: 6515-25
Publication
26143143 | J:231200
First Author: Cherubini M
Year: 2015
Journal: Biochim Biophys Acta
Title: Cdk5-mediated mitochondrial fission: A key player in dopaminergic toxicity in Huntington's disease.
Volume: 1852
Issue: 10 Pt A
Pages: 2145-60
Publication
15240808 | J:97273
First Author: Li C
Year: 2004
Journal: J Neurosci
Title: Correlation between semaphorin3A-induced facilitation of axonal transport and local activation of a translation initiation factor eukaryotic translation initiation factor 4E.
Volume: 24
Issue: 27
Pages: 6161-70
Publication
12684463 | J:82824
First Author: Patzke H
Year: 2003
Journal: J Neurosci
Title: Partial rescue of the p35-/- brain phenotype by low expression of a neuronal-specific enolase p25 transgene.
Volume: 23
Issue: 7
Pages: 2769-78
Publication
37377891 | J:348119
First Author: Wong DP
Year: 2023
Journal: Cancer Res Commun
Title: p35 is a Crucial Player in NK-cell Cytotoxicity and TGFβ-mediated NK-cell Dysfunction.
Volume: 3
Issue: 5
Pages: 793-806
Publication
10545161 | J:58359
First Author: Kwon YT
Year: 1999
Journal: J Comp Neurol
Title: Callosal axon guidance defects in p35(-/-) mice.
Volume: 415
Issue: 2
Pages: 218-29
Publication
28641077 | J:244252
First Author: Qin X
Year: 2017
Journal: Am J Pathol
Title: Inhibition of Early Growth Response 1 in the Hippocampus Alleviates Neuropathology and Improves Cognition in an Alzheimer Model with Plaques and Tangles.
Volume: 187
Issue: 8
Pages: 1828-1847
Publication
24411482 | J:213887
First Author: Orr ME
Year: 2014
Journal: Neurobiol Aging
Title: Mammalian target of rapamycin hyperactivity mediates the detrimental effects of a high sucrose diet on Alzheimer's disease pathology.
Volume: 35
Issue: 6
Pages: 1233-42
Publication
23951061 | J:205889
First Author: Chu J
Year: 2013
Journal: PLoS One
Title: Zileuton improves memory deficits, amyloid and tau pathology in a mouse model of Alzheimer's disease with plaques and tangles.
Volume: 8
Issue: 8
Pages: e70991
Publication
16723713 | J:109124
First Author: Kitazawa M
Year: 2006
Journal: Am J Pathol
Title: Genetically augmenting Abeta42 levels in skeletal muscle exacerbates inclusion body myositis-like pathology and motor deficits in transgenic mice.
Volume: 168
Issue: 6
Pages: 1986-97
Publication
35760415 | J:352633
First Author: Medina-Vera D
Year: 2022
Journal: Br J Pharmacol
Title: d-Pinitol promotes tau dephosphorylation through a cyclin-dependent kinase 5 regulation mechanism: A new potential approach for tauopathies?
Volume: 179
Issue: 19
Pages: 4655-4672
Publication
23683389 | J:284655
First Author: Giannopoulos PF
Year: 2013
Journal: Biol Psychiatry
Title: 5-lipoxygenase activating protein reduction ameliorates cognitive deficit, synaptic dysfunction, and neuropathology in a mouse model of Alzheimer's disease.
Volume: 74
Issue: 5
Pages: 348-56
Publication
16354912 | J:103996
First Author: Han P
Year: 2005
Journal: J Neurosci
Title: Suppression of cyclin-dependent kinase 5 activation by amyloid precursor protein: a novel excitoprotective mechanism involving modulation of tau phosphorylation.
Volume: 25
Issue: 50
Pages: 11542-52
Publication
18202185 | J:131373
First Author: Muyllaert D
Year: 2008
Journal: Am J Pathol
Title: Neurodegeneration and neuroinflammation in cdk5/p25-inducible mice: a model for hippocampal sclerosis and neocortical degeneration.
Volume: 172
Issue: 2
Pages: 470-85
Publication
22049418 | J:177847
First Author: Giusti-Rodríguez P
Year: 2011
Journal: J Neurosci
Title: Synaptic deficits are rescued in the p25/Cdk5 model of neurodegeneration by the reduction of β-secretase (BACE1).
Volume: 31
Issue: 44
Pages: 15751-6
Publication
23536182 | J:198593
First Author: Mount MP
Year: 2013
Journal: J Biol Chem
Title: Perturbation of transcription factor Nur77 expression mediated by myocyte enhancer factor 2D (MEF2D) regulates dopaminergic neuron loss in response to 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP).
Volume: 288
Issue: 20
Pages: 14362-71
Publication
35581583 | J:348784
First Author: Im DS
Year: 2022
Journal: BMC Biol
Title: Cdk5-mediated JIP1 phosphorylation regulates axonal outgrowth through Notch1 inhibition.
Volume: 20
Issue: 1
Pages: 115
Publication
15009685 | J:88474
First Author: Takahashi S
Year: 2004
Journal: J Neurochem
Title: Mutant superoxide dismutase 1 causes motor neuron degeneration independent of cyclin-dependent kinase 5 activation by p35 or p25.
Volume: 88
Issue: 5
Pages: 1295-304
Publication
28969475 | J:274621
 
First Author: Prochazkova M
Year: 2017
Journal: Mol Pain
Title: Peripheral and orofacial pain sensation is unaffected by the loss of p39.
Volume: 13
Pages: 1744806917737205
Publication
24849359 | J:211346
First Author: Verstegen AM
Year: 2014
Journal: J Neurosci
Title: Phosphorylation of synapsin I by cyclin-dependent kinase-5 sets the ratio between the resting and recycling pools of synaptic vesicles at hippocampal synapses.
Volume: 34
Issue: 21
Pages: 7266-80
Publication
28444183 | J:242979
First Author: Robin G
Year: 2017
Journal: Hum Mol Genet
Title: Calcium dysregulation and Cdk5-ATM pathway involved in a mouse model of fragile X-associated tremor/ataxia syndrome.
Volume: 26
Issue: 14
Pages: 2649-2666
Publication
15992381 | J:100692
First Author: Ohshima T
Year: 2005
Journal: J Neurochem
Title: Impairment of hippocampal long-term depression and defective spatial learning and memory in p35 mice.
Volume: 94
Issue: 4
Pages: 917-25
Publication
16407116 | J:105661
First Author: Pareek TK
Year: 2006
Journal: Proc Natl Acad Sci U S A
Title: Cyclin-dependent kinase 5 activity regulates pain signaling.
Volume: 103
Issue: 3
Pages: 791-6
Publication
24802945 | J:215344
First Author: He X
Year: 2014
Journal: J Neurochem
Title: Cdk5/p35 is required for motor coordination and cerebellar plasticity.
Volume: 131
Issue: 1
Pages: 53-64
Publication
28391013 | J:243982
 
First Author: Park KHJ
Year: 2017
Journal: Neuroscience
Title: p35 hemizygosity activates Akt but does not improve motor function in the YAC128 mouse model of Huntington's disease.
Volume: 352
Pages: 79-87
Publication
31421203 | J:282995
 
First Author: Barrett T
Year: 2019
Journal: Neuroscience
Title: p35 Hemizygous Deletion in 5xFAD Mice Increases Aβ Plaque Load in Males but Not in Females.
Volume: 417
Pages: 45-56
Publication
31143112 | J:284582
 
First Author: Cao LL
Year: 2019
Journal: Front Aging Neurosci
Title: Calcium Ions Stimulate the Hyperphosphorylation of Tau by Activating Microsomal Prostaglandin E Synthase 1.
Volume: 11
Pages: 108
Publication
27059136 | J:235191
First Author: Toba J
Year: 2016
Journal: Biochem Biophys Res Commun
Title: PPARγ agonist pioglitazone improves cerebellar dysfunction at pre-Aβ deposition stage in APPswe/PS1dE9 Alzheimer's disease model mice.
Volume: 473
Issue: 4
Pages: 1039-1044
Publication
32860886 | J:299161
 
First Author: Zhang W
Year: 2020
Journal: Neurosci Lett
Title: FoxO1 overexpression reduces Aβ production and tau phosphorylation in vitro.
Volume: 738
Pages: 135322
Publication
25875370 | J:233495
First Author: Chen J
Year: 2015
Journal: PLoS One
Title: Anti-diabetes drug pioglitazone ameliorates synaptic defects in AD transgenic mice by inhibiting cyclin-dependent kinase5 activity.
Volume: 10
Issue: 4
Pages: e0123864
Publication
23536090 | J:196585
First Author: Amini M
Year: 2013
Journal: J Neurosci
Title: Conditional disruption of calpain in the CNS alters dendrite morphology, impairs LTP, and promotes neuronal survival following injury.
Volume: 33
Issue: 13
Pages: 5773-84
Publication
36351818 | J:332059
 
First Author: Paul S
Year: 2022
Journal: eNeuro
Title: Cyclin-Dependent Kinase 5 Regulates cPLA2 Activity and Neuroinflammation in Parkinson's Disease.
Volume: 9
Issue: 6
Publication
25009256 | J:215307
First Author: Rao MV
Year: 2014
Journal: J Neurosci
Title: Specific calpain inhibition by calpastatin prevents tauopathy and neurodegeneration and restores normal lifespan in tau P301L mice.
Volume: 34
Issue: 28
Pages: 9222-34
Publication
23507144 | J:202419
First Author: Barroso E
Year: 2013
Journal: Biochim Biophys Acta
Title: Tau hyperphosphorylation and increased BACE1 and RAGE levels in the cortex of PPARβ/δ-null mice.
Volume: 1832
Issue: 8
Pages: 1241-8
Publication
27656030 | J:235563
First Author: Saito T
Year: 2016
Journal: J Neurosci
Title: Calpain Activation in Alzheimer's Model Mice Is an Artifact of APP and Presenilin Overexpression.
Volume: 36
Issue: 38
Pages: 9933-6
Publication
32156571 | J:293780
 
First Author: Yamazaki Y
Year: 2020
Journal: Brain Res
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