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Search results 3101 to 3200 out of 5063 for Pole

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Hits by Strain

Type Details Score
Protein
D3YV52
Organism: Mus musculus/domesticus
Length: 104  
Fragment?: true
Protein
A0A286YD53
Organism: Mus musculus/domesticus
Length: 79  
Fragment?: true
Protein
A0A0J9YU15
Organism: Mus musculus/domesticus
Length: 88  
Fragment?: true
Protein
B7ZNY0
Organism: Mus musculus/domesticus
Length: 2412  
Fragment?: false
Protein
H3BL35
Organism: Mus musculus/domesticus
Length: 305  
Fragment?: false
Protein
B2RUJ9
Organism: Mus musculus/domesticus
Length: 2463  
Fragment?: false
Protein
A0A1Y7VIX3
Organism: Mus musculus/domesticus
Length: 128  
Fragment?: false
Protein
Q8BTJ3
Organism: Mus musculus/domesticus
Length: 745  
Fragment?: false
Protein
Q8K312
Organism: Mus musculus/domesticus
Length: 205  
Fragment?: true
Protein
G3X9L9
Organism: Mus musculus/domesticus
Length: 2463  
Fragment?: false
Protein
E9Q1A0
Organism: Mus musculus/domesticus
Length: 2412  
Fragment?: false
Protein
Q924U2
Organism: Mus musculus/domesticus
Length: 119  
Fragment?: true
Protein
Q8CIT8
Organism: Mus musculus/domesticus
Length: 124  
Fragment?: false
Protein
Q8BY40
Organism: Mus musculus/domesticus
Length: 295  
Fragment?: true
Publication
9048482 | -
First Author: Ponting CP
Year: 1997
Journal: Trends Biochem Sci
Title: Tudor domains in proteins that interact with RNA.
Volume: 22
Issue: 2
Pages: 51-2
Publication
11135666 | -
First Author: Selenko P
Year: 2001
Journal: Nat Struct Biol
Title: SMN tudor domain structure and its interaction with the Sm proteins.
Volume: 8
Issue: 1
Pages: 27-31
Publication
26700805 | -
First Author: Zhao DY
Year: 2016
Journal: Nature
Title: SMN and symmetric arginine dimethylation of RNA polymerase II C-terminal domain control termination.
Volume: 529
Issue: 7584
Pages: 48-53
Publication
23741747 | -
First Author: Ying M
Year: 2012
Journal: Dev Growth Differ
Title: Tudor domain-containing proteins of Drosophila melanogaster.
Volume: 54
Issue: 1
Pages: 32-43
Publication
11544518 | -
First Author: van den Ent F
Year: 2001
Journal: Nature
Title: Prokaryotic origin of the actin cytoskeleton.
Volume: 413
Issue: 6851
Pages: 39-44
Publication
24920445 | -
First Author: Roppolo D
Year: 2014
Journal: Plant Physiol
Title: Functional and Evolutionary Analysis of the CASPARIAN STRIP MEMBRANE DOMAIN PROTEIN Family.
Volume: 165
Issue: 4
Pages: 1709-1722
Publication
10631570 | -
First Author: Sibley LD
Year: 1999
Journal: Immunobiology
Title: Experimental approaches to understanding virulence in toxoplasmosis.
Volume: 201
Issue: 2
Pages: 210-24
Publication
8384696 | -
First Author: Mercier C
Year: 1993
Journal: Mol Biochem Parasitol
Title: Molecular characterization of a dense granule antigen (Gra 2) associated with the network of the parasitophorous vacuole in Toxoplasma gondii.
Volume: 58
Issue: 1
Pages: 71-82
Publication
9664038 | -
 
First Author: Mercier C
Year: 1998
Journal: J Cell Sci
Title: The amphipathic alpha helices of the toxoplasma protein GRA2 mediate post-secretory membrane association.
Volume: 111 ( Pt 15)
Pages: 2171-80
Publication
20360743 | -
First Author: Pauwels L
Year: 2010
Journal: Nature
Title: NINJA connects the co-repressor TOPLESS to jasmonate signalling.
Volume: 464
Issue: 7289
Pages: 788-91
Publication
27660388 | -
First Author: Farache D
Year: 2016
Journal: J Biol Chem
Title: Functional Analysis of γ-Tubulin Complex Proteins Indicates Specific Lateral Association via Their N-terminal Domains.
Volume: 291
Issue: 44
Pages: 23112-23125
Protein Domain
IPR002999 | Tudor
Type: Domain
Description: The drosophila Tudor protein, the founder of the Tudor domain family, is encoded by a 'posterior group' gene, which when mutated disrupt normal abdominal segmentation and pole cell formation. Another drosophila gene, homeless, is required for RNA localization during oogenesis. The tudor protein contains multiple repeats of a domain which is also found in homeless [, ].The tudor domain is found in many proteins that colocalise with ribonucleoprotein or single-strand DNA-associated complexes in the nucleus, in the mitochondrial membrane, or at kinetochores. At first it was not clear if the domain binds directly to RNA and ssDNA, or controls interactions with the nucleoprotein complexes but it is now known that this domain recognises and binds to methyl-arginine-lysine residues, playing important roles in diverse epigenetics, gene expression and the regulation of various small RNAs [, , ]. The tudor-containing protein homeless, also contains a zinc finger typical of RNA-binding proteins [].This domain has been implicated in protein-protein interactions in which methylated protein substrates bind to these domains. One example is the Tudor domain of Survival of Motor Neuron (SMN), linked to spinal muscular atrophy, which binds to symmetrically dimethylated arginines of arginine-glycine (RG) rich sequences found in the C-terminal tails of Sm proteins. The resolution of the solution structure of the Tudor domain of human SMN revealed that the Tudor domain forms a strongly bent antiparallel β-sheet with five strands forming a barrel-like fold. The structure exhibits a conserved negatively charged surface that interacts with the C-terminal Arg and Gly-rich tails of the spliceosomal Sm D1 and D3 proteins [, ].
Protein Domain
IPR008118 | Gra2_protein
Type: Family
Description: Toxoplasma gondii is an obligate intracellular apicomplexan protozoan parasite, with a complex lifestyle involving varied hosts []. It has two phases of growth: an intestinal phase in feline hosts, and an extra-intestinal phase in other mammals. Oocysts from infected cats develop into tachyzoites, and eventually, bradyzoites and zoitocysts in the extraintestinal host []. Transmission of the parasite occurs through contact with infected cats or raw/undercooked meat; in immunocompromised individuals, it can cause severe and often lethal toxoplasmosis. Acute infection in healthy humans can sometimes also cause tissue damage [].The protozoan utilises a variety of secretory and antigenic proteins to invade a host and gain access to the intracellular environment []. These originate from distinct organelles in the T. gondii cell termed micronemes, rhoptries, and dense granules. They are released at specific times during invasion to ensure the proteins are allocated to their correct target destinations []. Dense granule antigens (GRAs) are released from the T. gondii tachyzoitewhile still encapsulated in a host vacuole.Gra2, one of these moieties, israpidly targeted to a network of membranous tubules that connect with thevacuolar membrane []. A recent study into the exact mechanism of Gra2secretion has revealed that the secondary structure of the protein plays amajor role in its targeting and release from the apical pole of the parasitic cell []. Two amphipathic α-helical regions ensure not onlythat association of Gra2 with the host vacuole membrane takes place, but also that it is correctly targeted to the cell posterior, where stabilisingnetworks of tubules form and hold the cell steady in the vacuole.
Protein Coding Gene
MGI:1858195 | Hnrnpu
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:96238 | Hsf1
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1932051 | Kat5
Type: protein_coding_gene
Organism: mouse, laboratory
Publication
23758727 | J:199170
 
First Author: Su J
Year: 2013
Journal: Neural Dev
Title: Contributions of VLDLR and LRP8 in the establishment of retinogeniculate projections.
Volume: 8
Pages: 11
Publication
29853630 | J:263267
First Author: Serjanov D
Year: 2018
Journal: J Neurosci
Title: Laminin β2 Chain Regulates Retinal Progenitor Cell Mitotic Spindle Orientation via Dystroglycan.
Volume: 38
Issue: 26
Pages: 5996-6010
Publication
34830414 | J:315031
 
First Author: Gómez-Almería M
Year: 2021
Journal: Int J Mol Sci
Title: BiP Heterozigosity Aggravates Pathological Deterioration in Experimental Amyotrophic Lateral Sclerosis.
Volume: 22
Issue: 22
Publication
30079013 | J:276329
 
First Author: Takahashi S
Year: 2018
Journal: Front Cell Neurosci
Title: Prestin Contributes to Membrane Compartmentalization and Is Required for Normal Innervation of Outer Hair Cells.
Volume: 12
Pages: 211
Publication
26825015 | J:229895
 
First Author: Sugiyama Y
Year: 2016
Journal: Mech Dev
Title: Non-essential role for cilia in coordinating precise alignment of lens fibres.
Volume: 139
Pages: 10-7
Publication
24708746 | J:283485
 
First Author: Edwards JC
Year: 2014
Journal: BMC Nephrol
Title: Absence of chloride intracellular channel 4 (CLIC4) predisposes to acute kidney injury but has minimal impact on recovery.
Volume: 15
Pages: 54
Publication
21281489 | J:173129
 
First Author: Drews C
Year: 2011
Journal: BMC Dev Biol
Title: The nephrogenic potential of the transcription factors osr1, osr2, hnf1b, lhx1 and pax8 assessed in Xenopus animal caps.
Volume: 11
Pages: 5
Publication
9156514 | J:33787
First Author: Chakraborty I
Year: 1996
Journal: J Mol Endocrinol
Title: Developmental expression of the cyclo-oxygenase-1 and cyclo-oxygenase-2 genes in the peri-implantation mouse uterus and their differential regulation by the blastocyst and ovarian steroids.
Volume: 16
Issue: 2
Pages: 107-22
Publication
9464852 | J:45849
First Author: Antczak M
Year: 1997
Journal: Mol Hum Reprod
Title: Oocyte influences on early development: the regulatory proteins leptin and STAT3 are polarized in mouse and human oocytes and differentially distributed within the cells of the preimplantation stage embryo.
Volume: 3
Issue: 12
Pages: 1067-86
Publication
10342446 | J:55320
First Author: Puelles L
Year: 1999
Journal: Eur J Morphol
Title: Comparison of the mammalian and avian telencephalon from the perspective of gene expression data.
Volume: 37
Issue: 2-3
Pages: 139-50
Protein Coding Gene
MGI:2156538 | Pkd1l1
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1921166 | Ift57
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:106582 | Rfx3
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1914249 | Med28
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:106210 | Dmbt1
Type: protein_coding_gene
Organism: mouse, laboratory
Allele
Agtpbp1<pcd> | MGI:1856535
Name: ATP/GTP binding protein 1; Purkinje cell degeneration
Allele Type: Spontaneous
Attribute String: Not Specified
Allele
Grid2<Lc> | MGI:1857337
 
Name: glutamate receptor, ionotropic, delta 2; lurcher
Allele Type: Spontaneous
Allele
Hand2<tm1Dsr> | MGI:1857639
Name: heart and neural crest derivatives expressed 2; targeted mutation 1, Deepak Srivastava
Allele Type: Targeted
Attribute String: Null/knockout
Allele
Cfc1<tm1Mms> | MGI:2179530
Name: cryptic, EGF-CFC family member 1; targeted mutation 1, Michael M Shen
Allele Type: Targeted
Attribute String: Null/knockout
Allele
Nr3c2<tm1Gsc> | MGI:2441654
Name: nuclear receptor subfamily 3, group C, member 2; targeted mutation 1, Gunther Schutz
Allele Type: Targeted
Attribute String: Null/knockout, Reporter
Allele
Sox2<tm1Rlb> | MGI:2449045
Name: SRY (sex determining region Y)-box 2; targeted mutation 1, Robin Lovell-Badge
Allele Type: Targeted
Attribute String: Null/knockout, Reporter
Allele
Ccm2<Gt(RRG051)Byg> | MGI:3512761
Name: cerebral cavernous malformation 2; gene trap RRG051, BayGenomics
Allele Type: Gene trapped
Attribute String: Null/knockout, Reporter
Allele
Rybp<tm1Nisa> | MGI:3790768
Name: RING1 and YY1 binding protein; targeted mutation 1, Nicole Schreiber-Agus
Allele Type: Targeted
Attribute String: Null/knockout, Reporter
Allele
Enam<tm1.1Jcch> | MGI:3796583
Name: enamelin; targeted mutation 1.1, Jan C C Hu
Allele Type: Targeted
Attribute String: Null/knockout, Reporter
Genotype
Genotype
Symbol: Pkd2/Pkd2
Background: either: (involves: 129S1/Sv * 129X1/SvJ) or (involves: 129S1/Sv * 129X1/SvJ * C57BL/6)
Zygosity: hm
Has Mutant Allele: true
Genotype
Genotype
Symbol: Smo/Smo Tg(KRT14-cre)1Amc/?
Background: involves: 129X1/SvJ * C57BL/6 * CBA
Zygosity: cn
Has Mutant Allele: true
Genotype
Genotype
Symbol: Smad4/Smad4
Background: involves: 129S6/SvEvTac
Zygosity: hm
Has Mutant Allele: true
Genotype
Genotype
Symbol: Atp2b2/Atp2b2
Background: C3H/HeJ-Atp2b2/J
Zygosity: hm
Has Mutant Allele: true
Genotype
Genotype
Symbol: Ift57/Ift57
Background: involves: 129S1/SvImJ * C57BL/6J
Zygosity: hm
Has Mutant Allele: true
Genotype
Genotype
Symbol: Ift57/Ift57
Background: involves: 129S1/SvImJ * C57BL/6J
Zygosity: hm
Has Mutant Allele: true
Genotype
Genotype
Symbol: Rxra/Rxra
Background: involves: 129S2/SvPas * C57BL/6 * SJL
Zygosity: hm
Has Mutant Allele: true
Genotype
Genotype
Symbol: Megf8/Megf8
Background: involves: 129S6/SvEvTac * C57BL/6J
Zygosity: hm
Has Mutant Allele: true
Protein Coding Gene
MGI:103580 | Hand2
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:97175 | Map2
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:2685063 | Tsga10
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1926045 | Armc9
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1339962 | Ftcd
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:96951 | Mdm1
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:2443290 | Cntrob
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1918526 | Ccdc57
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1924217 | 2700049A03Rik
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1914713 | Poc5
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1933549 | Slmap
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:3028590 | Mei1
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1913336 | Cep20
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1922546 | Cep43
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:2685784 | Ccdc78
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1921267 | Wdr90
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1923913 | Majin
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1924386 | Cep78
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1921357 | Cep55
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1858964 | Actr1a
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1921651 | Terb2
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:101785 | Mybl2
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:2677454 | Cetn4
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1914411 | Sclt1
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1920026 | Sass6
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1098600 | Odf2l
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1918345 | Kif24
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:2443104 | Cntln
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1919288 | Klhl21
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1917931 | Abraxas1
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1891414 | Cep41
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1914320 | Lsm14a
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1914618 | Saxo2
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:2141942 | Ccp110
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:2444453 | Arhgef10
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:2443187 | Terb1
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1924082 | Hyls1
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:2444488 | Ccdc15
Type: protein_coding_gene
Organism: mouse, laboratory




MouseMine is a collaboration between MGI at The Jackson Laboratory and the InterMine project at the Cambridge Systems Biology Centre. MouseMine is funded through a grant from the NIH/NHGRI.The Jackson Laboratory makes no representation about the suitability or accuracy of this software or data for any purpose, and makes no warranties, either express or implied, including merchantability and fitness for a particular purpose or that the use of this software or data will not infringe any third party patents, copyrights, trademarks, or other rights. the software and data are provided "as is". This software and data are provided to enhance knowledge and encourage progress in the scientific community and are to be used only for research and educational purposes. Any reproduction or use for commercial purpose is prohibited without the prior express written permission of the Jackson Laboratory.

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