immune system disease

Literature (43)

Literature for DOID 2914: immune system disease

Xenbase Articles Publications associated with this Disease Ontology entry or its descendants

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The Wnt-dependent signaling pathways as target in oncology drug discovery., Janssens N,Janicot M,Perera T, Invest New Drugs. July 1, 2006; 24(4):0167-6997.
Regulation and function of small heat shock protein genes during amphibian development., Heikkila JJ, J Cell Biochem. November 1, 2004; 93(4):0730-2312.
Identification of a novel gene, FGFR1OP2, fused to FGFR1 in 8p11 myeloproliferative syndrome., Grand EK,Grand FH,Chase AJ,Ross FM,Corcoran MM,Oscier DG,Cross NC, Genes Chromosomes Cancer. May 1, 2004; 40(1):1045-2257.
Vertebrate hairy and Enhancer of split related proteins: transcriptional repressors regulating cellular differentiation and embryonic patterning., Davis RL,Turner DL, Oncogene. December 20, 2001; 20(58):0950-9232.
Down-regulation of L-type calcium channel in pups born to 52 kDa SSA/Ro immunized rabbits., Xiao GQ,Qu Y,Hu K,Boutjdir M, FASEB J. July 1, 2001; 15(9):1530-6860.
Direct inhibition of expressed cardiac l- and t-type calcium channels by igg from mothers whose children have congenital heart block., Xiao GQ,Hu K,Boutjdir M, Circulation. March 20, 2001; 103(11):1524-4539.
Functional properties of a new voltage-dependent calcium channel alpha(2)delta auxiliary subunit gene (CACNA2D2)., Gao B,Sekido Y,Maximov A,Saad M,Forgacs E,Latif F,Wei MH,Lerman M,Lee JH,Lee JH,Perez-Reyes E,Bezprozvanny I,Minna JD, J Biol Chem. April 21, 2000; 275(16):1083-351X.
Notch in vertebrates., Robey E, Curr Opin Genet Dev. August 1, 1997; 7(4):0959-437X.
Analysis of the autoantibody response to fibrillarin in human disease and murine models of autoimmunity., Takeuchi K,Turley SJ,Tan EM,Pollard KM, J Immunol. January 15, 1995; 154(2):1550-6606.
Multiple sclerosis cerebrospinal fluid produces myelin lesions in tadpole optic nerves., Tabira T,Webster HD,Wray SH, N Engl J Med. September 16, 1976; 295(12):1533-4406.
Molecular mechanisms of lymphatic vascular development., Mäkinen T,Norrmén C,Petrova TV, Cell Mol Life Sci. August 1, 2007; 64(15):1420-9071.
Non-transcriptional control of DNA replication by c-Myc., Dominguez-Sola D,Ying CY,Grandori C,Ruggiero L,Chen B,Li M,Galloway DA,Gu W,Gautier J,Dalla-Favera R, Nature. July 26, 2007; 448(7152):0143-5221.
An in vivo chemical library screen in Xenopus tadpoles reveals novel pathways involved in angiogenesis and lymphangiogenesis., Kälin RE,Bänziger-Tobler NE,Detmar M,Brändli AW, Blood. July 30, 2009; 114(5):1528-0020.
The target of the NSD family of histone lysine methyltransferases depends on the nature of the substrate., Li Y,Trojer P,Xu CF,Cheung P,Kuo A,Drury WJ,Qiao Q,Neubert TA,Xu RM,Gozani O,Reinberg D, J Biol Chem. December 4, 2009; 284(49):1083-351X.
SHP-2 acts via ROCK to regulate the cardiac actin cytoskeleton., Langdon Y,Tandon P,Paden E,Duddy J,Taylor JM,Conlon FL, Development. March 1, 2012; 139(5):1477-9129.
Live imaging of targeted cell ablation in Xenopus: a new model to study demyelination and repair., Kaya F,Mannioui A,Chesneau A,Sekizar S,Maillard E,Ballagny C,Houel-Renault L,Dupasquier D,Bronchain O,Holtzmann I,Desmazieres A,Thomas JL,Demeneix BA,Brophy PJ,Zalc B,Mazabraud A, J Neurosci. September 12, 2012; 32(37):1529-2401.
Generation of albino Xenopus tropicalis using zinc-finger nucleases., Nakajima K,Nakajima T,Takase M,Yaoita Y, Dev Growth Differ. December 1, 2012; 54(9):1440-169X.
Embryonic exposure to propylthiouracil disrupts left-right patterning in Xenopus embryos., van Veenendaal NR,Ulmer B,Boskovski MT,Fang X,Khokha MK,Wendler CC,Blum M,Rivkees SA, FASEB J. February 1, 2013; 27(2):1530-6860.
Using Xenopus tissue cultures for the study of myasthenia gravis pathogenesis., Yeo HL,Lim JY,Fukami Y,Yuki N,Lee CW,Lee CW,Lee CW, Dev Biol. December 15, 2015; 408(2):1095-564X.
A role for BMP-induced homeobox gene MIXL1 in acute myelogenous leukemia and identification of type I BMP receptor as a potential target for therapy., Raymond A,Liu B,Liang H,Wei C,Guindani M,Lu Y,Liang S,St John LS,Molldrem J,Nagarajan L, Oncotarget. December 30, 2014; 5(24):1949-2553.
Remyelination by Resident Oligodendrocyte Precursor Cells in a Xenopus laevis Inducible Model of Demyelination., Sekizar S,Mannioui A,Azoyan L,Colin C,Thomas JL,Du Pasquier D,Mallat M,Zalc B, Dev Neurosci. January 1, 2015; 37(3):1421-9859.
CRISPR/Cas9: An inexpensive, efficient loss of function tool to screen human disease genes in Xenopus., Bhattacharya D,Marfo CA,Li D,Lane M,Khokha MK, Dev Biol. December 15, 2015; 408(2):1095-564X.
Immunosuppressive evidence of Tityus serrulatus toxins Ts6 and Ts15: insights of a novel K(+) channel pattern in T cells., Pucca MB,Bertolini TB,Cerni FA,Bordon KC,Peigneur S,Tytgat J,Bonato VL,Arantes EC, Immunology. February 1, 2016; 147(2):1365-2567.
Expression of ribosomopathy genes during Xenopus tropicalis embryogenesis., Robson A,Owens ND,Baserga SJ,Khokha MK,Griffin JN, BMC Dev Biol. October 26, 2016; 16(1):1471-213X.
Using Xenopus to understand human disease and developmental disorders., Sater AK,Moody SA, Genesis. January 1, 2017; 55(1-2):1526-968X.
The Xenopus tadpole: An in vivo model to screen drugs favoring remyelination., Mannioui A,Vauzanges Q,Fini JB,Henriet E,Sekizar S,Azoyan L,Thomas JL,Pasquier DD,Giovannangeli C,Demeneix B,Lubetzki C,Zalc B, Mult Scler. October 1, 2018; 24(11):1477-0970.
The SLC2A14 gene, encoding the novel glucose/dehydroascorbate transporter GLUT14, is associated with inflammatory bowel disease., Amir Shaghaghi M,Zhouyao H,Tu H,El-Gabalawy H,Crow GH,Levine M,Bernstein CN,Eck P, Am J Clin Nutr. December 1, 2017; 106(6):0002-9165.
Xenopus tropicalis: Joining the Armada in the Fight Against Blood Cancer., Dimitrakopoulou D,Tulkens D,Van Vlierberghe P,Vleminckx K,Vleminckx K, Front Physiol. January 1, 2019; 10:1664-042X.
Comparative Embryonic Spatio-Temporal Expression Profile Map of the Xenopus P2X Receptor Family., Blanchard C,Boué-Grabot E,Massé K, Front Cell Neurosci. January 1, 2019; 13:1662-5102.
RBL1 (p107) functions as tumor suppressor in glioblastoma and small-cell pancreatic neuroendocrine carcinoma in Xenopus tropicalis., Naert T,Dimitrakopoulou D,Tulkens D,Demuynck S,Carron M,Noelanders R,Eeckhout L,Van Isterdael G,Deforce D,Vanhove C,Van Dorpe J,Creytens D,Vleminckx K,Vleminckx K, Oncogene. March 1, 2020; 39(13):0950-9232.
Grp94 Regulates the Recruitment of Aneural AChR Clusters for the Assembly of Postsynaptic Specializations by Modulating ADF/Cofilin Activity and Turnover., Chan ZC,Deng L,Lee CW,Lee CW,Lee CW, eNeuro. September 8, 2020; 7(5):2373-2822.
TMEM79/MATTRIN defines a pathway for Frizzled regulation and is required for Xenopus embryogenesis., Chen M,Amado N,Tan J,Reis A,Ge M,Abreu JG,He X, Elife. September 14, 2020; 9:2050-084X.
Xenopus leads the way: Frogs as a pioneering model to understand the human brain., Exner CRT,Willsey HR, Genesis. February 1, 2021; 59(1-2):1526-968X.
Anaplastic lymphoma kinase (alk), a neuroblastoma associated gene, is expressed in neural crest domains during embryonic development of Xenopus., Moreno MM,Barrell WB,Godwin A,Guille M,Liu KJ,Liu KJ, Gene Expr Patterns. June 1, 2021; 40:1567-133X.
Teriflunomide Promotes Oligodendroglial 8,9-Unsaturated Sterol Accumulation and CNS Remyelination., Martin E,Aigrot MS,Lamari F,Bachelin C,Lubetzki C,Nait Oumesmar B,Zalc B,Stankoff B, Neurol Neuroimmunol Neuroinflamm. November 1, 2021; 8(6):2332-7812.
Uncoupling the BMP receptor antagonist function from the WNT agonist function of R-spondin 2 using the inhibitory peptide dendrimer RWd., Lee H,Lee H,Sun R,Niehrs C, J Biol Chem. February 1, 2022; 298(2):1083-351X.
Transcription suppression is mediated by the HDAC1-Sin3 complex in Xenopus nucleoplasmic extract., Quaas CE,Lin B,Long DT, J Biol Chem. November 1, 2022; 298(11):1083-351X.
Deleterious functional consequences of perfluoroalkyl substances accumulation into the myelin sheath., Butruille L,Jubin P,Martin E,Aigrot MS,Lhomme M,Fini JB,Demeneix B,Stankoff B,Lubetzki C,Zalc B,Remaud S, Environ Int. October 1, 2023; 180:0160-4120.
Xenopus Ssbp2 is required for embryonic pronephros morphogenesis and terminal differentiation., Cervino AS,Collodel MG,Lopez IA,Roa C,Hochbaum D,Hukriede NA,Cirio MC, Sci Rep. October 4, 2023; 13(1):2045-2322.
Advancements in the use of xenopus oocytes for modelling neurological disease for novel drug discovery., O'Connor EC,Kambara K,Bertrand D, Expert Opin Drug Discov. February 1, 2024; 19(2):1746-045X.
Mertk-expressing microglia influence oligodendrogenesis and myelin modelling in the CNS., Nguyen LT,Aprico A,Nwoke E,Walsh AD,Blades F,Avneri R,Martin E,Zalc B,Kilpatrick TJ,Binder MD, J Neuroinflammation. November 6, 2023; 20(1):1742-2094.
Selective block of human Kv1.1 channels and an epilepsy-associated gain-of-function mutation by AETX-K peptide., Zhao R,Qasim A,Sophanpanichkul P,Dai H,Nayak M,Sher I,Chill J,Goldstein SAN, FASEB J. January 1, 2024; 38(1):1530-6860.
Ibuprofen-induced multiorgan malformation during embryogenesis in Xenopus laevis (FETAX)., Park MJ,Chae JP,Woo D,Kim JY,Kim JY,Bae YC,Lee JY,Lee JY,Lee SY,Nam EJ,Nam SW, Biochem Biophys Res Commun. April 9, 2024; 703:1090-2104.

The Wnt-dependent signaling pathways as target in oncology drug discovery., Janssens N,Janicot M,Perera T, Invest New Drugs. July 1, 2006; 24(4):0167-6997.

Regulation and function of small heat shock protein genes during amphibian development., Heikkila JJ, J Cell Biochem. November 1, 2004; 93(4):0730-2312.

Identification of a novel gene, FGFR1OP2, fused to FGFR1 in 8p11 myeloproliferative syndrome., Grand EK,Grand FH,Chase AJ,Ross FM,Corcoran MM,Oscier DG,Cross NC, Genes Chromosomes Cancer. May 1, 2004; 40(1):1045-2257.

Vertebrate hairy and Enhancer of split related proteins: transcriptional repressors regulating cellular differentiation and embryonic patterning., Davis RL,Turner DL, Oncogene. December 20, 2001; 20(58):0950-9232.

Down-regulation of L-type calcium channel in pups born to 52 kDa SSA/Ro immunized rabbits., Xiao GQ,Qu Y,Hu K,Boutjdir M, FASEB J. July 1, 2001; 15(9):1530-6860.

Direct inhibition of expressed cardiac l- and t-type calcium channels by igg from mothers whose children have congenital heart block., Xiao GQ,Hu K,Boutjdir M, Circulation. March 20, 2001; 103(11):1524-4539.

Functional properties of a new voltage-dependent calcium channel alpha(2)delta auxiliary subunit gene (CACNA2D2)., Gao B,Sekido Y,Maximov A,Saad M,Forgacs E,Latif F,Wei MH,Lerman M,Lee JH,Lee JH,Perez-Reyes E,Bezprozvanny I,Minna JD, J Biol Chem. April 21, 2000; 275(16):1083-351X.

Notch in vertebrates., Robey E, Curr Opin Genet Dev. August 1, 1997; 7(4):0959-437X.

Analysis of the autoantibody response to fibrillarin in human disease and murine models of autoimmunity., Takeuchi K,Turley SJ,Tan EM,Pollard KM, J Immunol. January 15, 1995; 154(2):1550-6606.

Multiple sclerosis cerebrospinal fluid produces myelin lesions in tadpole optic nerves., Tabira T,Webster HD,Wray SH, N Engl J Med. September 16, 1976; 295(12):1533-4406.

Molecular mechanisms of lymphatic vascular development., Mäkinen T,Norrmén C,Petrova TV, Cell Mol Life Sci. August 1, 2007; 64(15):1420-9071.

Non-transcriptional control of DNA replication by c-Myc., Dominguez-Sola D,Ying CY,Grandori C,Ruggiero L,Chen B,Li M,Galloway DA,Gu W,Gautier J,Dalla-Favera R, Nature. July 26, 2007; 448(7152):0143-5221.

An in vivo chemical library screen in Xenopus tadpoles reveals novel pathways involved in angiogenesis and lymphangiogenesis., Kälin RE,Bänziger-Tobler NE,Detmar M,Brändli AW, Blood. July 30, 2009; 114(5):1528-0020.

The target of the NSD family of histone lysine methyltransferases depends on the nature of the substrate., Li Y,Trojer P,Xu CF,Cheung P,Kuo A,Drury WJ,Qiao Q,Neubert TA,Xu RM,Gozani O,Reinberg D, J Biol Chem. December 4, 2009; 284(49):1083-351X.

SHP-2 acts via ROCK to regulate the cardiac actin cytoskeleton., Langdon Y,Tandon P,Paden E,Duddy J,Taylor JM,Conlon FL, Development. March 1, 2012; 139(5):1477-9129.

Live imaging of targeted cell ablation in Xenopus: a new model to study demyelination and repair., Kaya F,Mannioui A,Chesneau A,Sekizar S,Maillard E,Ballagny C,Houel-Renault L,Dupasquier D,Bronchain O,Holtzmann I,Desmazieres A,Thomas JL,Demeneix BA,Brophy PJ,Zalc B,Mazabraud A, J Neurosci. September 12, 2012; 32(37):1529-2401.

Generation of albino Xenopus tropicalis using zinc-finger nucleases., Nakajima K,Nakajima T,Takase M,Yaoita Y, Dev Growth Differ. December 1, 2012; 54(9):1440-169X.

Embryonic exposure to propylthiouracil disrupts left-right patterning in Xenopus embryos., van Veenendaal NR,Ulmer B,Boskovski MT,Fang X,Khokha MK,Wendler CC,Blum M,Rivkees SA, FASEB J. February 1, 2013; 27(2):1530-6860.

Using Xenopus tissue cultures for the study of myasthenia gravis pathogenesis., Yeo HL,Lim JY,Fukami Y,Yuki N,Lee CW,Lee CW,Lee CW, Dev Biol. December 15, 2015; 408(2):1095-564X.

A role for BMP-induced homeobox gene MIXL1 in acute myelogenous leukemia and identification of type I BMP receptor as a potential target for therapy., Raymond A,Liu B,Liang H,Wei C,Guindani M,Lu Y,Liang S,St John LS,Molldrem J,Nagarajan L, Oncotarget. December 30, 2014; 5(24):1949-2553.

Remyelination by Resident Oligodendrocyte Precursor Cells in a Xenopus laevis Inducible Model of Demyelination., Sekizar S,Mannioui A,Azoyan L,Colin C,Thomas JL,Du Pasquier D,Mallat M,Zalc B, Dev Neurosci. January 1, 2015; 37(3):1421-9859.

CRISPR/Cas9: An inexpensive, efficient loss of function tool to screen human disease genes in Xenopus., Bhattacharya D,Marfo CA,Li D,Lane M,Khokha MK, Dev Biol. December 15, 2015; 408(2):1095-564X.

Immunosuppressive evidence of Tityus serrulatus toxins Ts6 and Ts15: insights of a novel K(+) channel pattern in T cells., Pucca MB,Bertolini TB,Cerni FA,Bordon KC,Peigneur S,Tytgat J,Bonato VL,Arantes EC, Immunology. February 1, 2016; 147(2):1365-2567.

Expression of ribosomopathy genes during Xenopus tropicalis embryogenesis., Robson A,Owens ND,Baserga SJ,Khokha MK,Griffin JN, BMC Dev Biol. October 26, 2016; 16(1):1471-213X.

Using Xenopus to understand human disease and developmental disorders., Sater AK,Moody SA, Genesis. January 1, 2017; 55(1-2):1526-968X.

The Xenopus tadpole: An in vivo model to screen drugs favoring remyelination., Mannioui A,Vauzanges Q,Fini JB,Henriet E,Sekizar S,Azoyan L,Thomas JL,Pasquier DD,Giovannangeli C,Demeneix B,Lubetzki C,Zalc B, Mult Scler. October 1, 2018; 24(11):1477-0970.

The SLC2A14 gene, encoding the novel glucose/dehydroascorbate transporter GLUT14, is associated with inflammatory bowel disease., Amir Shaghaghi M,Zhouyao H,Tu H,El-Gabalawy H,Crow GH,Levine M,Bernstein CN,Eck P, Am J Clin Nutr. December 1, 2017; 106(6):0002-9165.

Xenopus tropicalis: Joining the Armada in the Fight Against Blood Cancer., Dimitrakopoulou D,Tulkens D,Van Vlierberghe P,Vleminckx K,Vleminckx K, Front Physiol. January 1, 2019; 10:1664-042X.

Comparative Embryonic Spatio-Temporal Expression Profile Map of the Xenopus P2X Receptor Family., Blanchard C,Boué-Grabot E,Massé K, Front Cell Neurosci. January 1, 2019; 13:1662-5102.

RBL1 (p107) functions as tumor suppressor in glioblastoma and small-cell pancreatic neuroendocrine carcinoma in Xenopus tropicalis., Naert T,Dimitrakopoulou D,Tulkens D,Demuynck S,Carron M,Noelanders R,Eeckhout L,Van Isterdael G,Deforce D,Vanhove C,Van Dorpe J,Creytens D,Vleminckx K,Vleminckx K, Oncogene. March 1, 2020; 39(13):0950-9232.

Grp94 Regulates the Recruitment of Aneural AChR Clusters for the Assembly of Postsynaptic Specializations by Modulating ADF/Cofilin Activity and Turnover., Chan ZC,Deng L,Lee CW,Lee CW,Lee CW, eNeuro. September 8, 2020; 7(5):2373-2822.

TMEM79/MATTRIN defines a pathway for Frizzled regulation and is required for Xenopus embryogenesis., Chen M,Amado N,Tan J,Reis A,Ge M,Abreu JG,He X, Elife. September 14, 2020; 9:2050-084X.

Xenopus leads the way: Frogs as a pioneering model to understand the human brain., Exner CRT,Willsey HR, Genesis. February 1, 2021; 59(1-2):1526-968X.

Anaplastic lymphoma kinase (alk), a neuroblastoma associated gene, is expressed in neural crest domains during embryonic development of Xenopus., Moreno MM,Barrell WB,Godwin A,Guille M,Liu KJ,Liu KJ, Gene Expr Patterns. June 1, 2021; 40:1567-133X.

Teriflunomide Promotes Oligodendroglial 8,9-Unsaturated Sterol Accumulation and CNS Remyelination., Martin E,Aigrot MS,Lamari F,Bachelin C,Lubetzki C,Nait Oumesmar B,Zalc B,Stankoff B, Neurol Neuroimmunol Neuroinflamm. November 1, 2021; 8(6):2332-7812.

Uncoupling the BMP receptor antagonist function from the WNT agonist function of R-spondin 2 using the inhibitory peptide dendrimer RWd., Lee H,Lee H,Sun R,Niehrs C, J Biol Chem. February 1, 2022; 298(2):1083-351X.

Transcription suppression is mediated by the HDAC1-Sin3 complex in Xenopus nucleoplasmic extract., Quaas CE,Lin B,Long DT, J Biol Chem. November 1, 2022; 298(11):1083-351X.

Deleterious functional consequences of perfluoroalkyl substances accumulation into the myelin sheath., Butruille L,Jubin P,Martin E,Aigrot MS,Lhomme M,Fini JB,Demeneix B,Stankoff B,Lubetzki C,Zalc B,Remaud S, Environ Int. October 1, 2023; 180:0160-4120.

Xenopus Ssbp2 is required for embryonic pronephros morphogenesis and terminal differentiation., Cervino AS,Collodel MG,Lopez IA,Roa C,Hochbaum D,Hukriede NA,Cirio MC, Sci Rep. October 4, 2023; 13(1):2045-2322.

Advancements in the use of xenopus oocytes for modelling neurological disease for novel drug discovery., O'Connor EC,Kambara K,Bertrand D, Expert Opin Drug Discov. February 1, 2024; 19(2):1746-045X.

Mertk-expressing microglia influence oligodendrogenesis and myelin modelling in the CNS., Nguyen LT,Aprico A,Nwoke E,Walsh AD,Blades F,Avneri R,Martin E,Zalc B,Kilpatrick TJ,Binder MD, J Neuroinflammation. November 6, 2023; 20(1):1742-2094.

Selective block of human Kv1.1 channels and an epilepsy-associated gain-of-function mutation by AETX-K peptide., Zhao R,Qasim A,Sophanpanichkul P,Dai H,Nayak M,Sher I,Chill J,Goldstein SAN, FASEB J. January 1, 2024; 38(1):1530-6860.

Ibuprofen-induced multiorgan malformation during embryogenesis in Xenopus laevis (FETAX)., Park MJ,Chae JP,Woo D,Kim JY,Kim JY,Bae YC,Lee JY,Lee JY,Lee SY,Nam EJ,Nam SW, Biochem Biophys Res Commun. April 9, 2024; 703:1090-2104.