Gene Expression Literature Summary

Summary by Gene and Reference: Number indicates the number of results matching the search criteria recorded for each reference.
* Indicates detailed expression data entries available

Prox1  prospero homeobox 1   (Synonyms: A230003G05Rik)
Results	Reference
1	J:132058 Bermingham-McDonogh O, Oesterle EC, Stone JS, Hume CR, Huynh HM, Hayashi T, Expression of Prox1 during mouse cochlear development. J Comp Neurol. 2006 May 10;496(2):172-86
1	J:229394 Bernier-Latmani J, Cisarovsky C, Demir CS, Bruand M, Jaquet M, Davanture S, Ragusa S, Siegert S, Dormond O, Benedito R, Radtke F, Luther SA, Petrova TV, DLL4 promotes continuous adult intestinal lacteal regeneration and dietary fat transport. J Clin Invest. 2015 Dec;125(12):4572-86
1	J:326462 Byrne AB, Brouillard P, Sutton DL, Kazenwadel J, Montazaribarforoushi S, Secker GA, Oszmiana A, Babic M, Betterman KL, Brautigan PJ, White M, Piltz SG, Thomas PQ, Hahn CN, Rath M, Felbor U, Korenke GC, Smith CL, Wood KH, Sheppard SE, Adams DM, Kariminejad A, Helaers R, Boon LM, Revencu N, Moore L, Barnett C, Haan E, Arts P, Vikkula M, Scott HS, Harvey NL, Pathogenic variants in MDFIC cause recessive central conducting lymphatic anomaly with lymphedema. Sci Transl Med. 2022 Mar 2;14(634):eabm4869
1	J:344154 Carlantoni C, Liekfeld LMH, Hemkemeyer SA, Schreier D, Saygi C, Kurelic R, Cardarelli S, Kalucka J, Schulte C, Beerens M, Mailer RK, Schaffer TE, Naro F, Pellegrini M, Nikolaev VO, Renne T, Frye M, The phosphodiesterase 2A controls lymphatic junctional maturation via cGMP-dependent notch signaling. Dev Cell. 2023 Dec 23;
1	J:269779 Cha B, Geng X, Mahamud MR, Zhang JY, Chen L, Kim W, Jho EH, Kim Y, Choi D, Dixon JB, Chen H, Hong YK, Olson L, Kim TH, Merrill BJ, Davis MJ, Srinivasan RS, Complementary Wnt Sources Regulate Lymphatic Vascular Development via PROX1-Dependent Wnt/beta-Catenin Signaling. Cell Rep. 2018 Oct 16;25(3):571-584.e5
1	J:173579 Chai R, Xia A, Wang T, Jan TA, Hayashi T, Bermingham-McDonogh O, Cheng AG, Dynamic expression of lgr5, a wnt target gene, in the developing and mature mouse cochlea. J Assoc Res Otolaryngol. 2011 Aug;12(4):455-69
1	J:206101 Danussi C, Del Bel Belluz L, Pivetta E, Modica TM, Muro A, Wassermann B, Doliana R, Sabatelli P, Colombatti A, Spessotto P, EMILIN1/alpha9beta1 integrin interaction is crucial in lymphatic valve formation and maintenance. Mol Cell Biol. 2013 Nov;33(22):4381-94
1	J:311887 Filova I, Dvorakova M, Bohuslavova R, Pavlinek A, Elliott KL, Vochyanova S, Fritzsch B, Pavlinkova G, Combined Atoh1 and Neurod1 Deletion Reveals Autonomous Growth of Auditory Nerve Fibers. Mol Neurobiol. 2020 Dec;57(12):5307-5323
1	J:157908 Fritzsch B, Dillard M, Lavado A, Harvey NL, Jahan I, Canal cristae growth and fiber extension to the outer hair cells of the mouse ear require Prox1 activity. PLoS One. 2010;5(2):e9377
1	J:282834 Gancz D, Raftrey BC, Perlmoter G, Marin-Juez R, Semo J, Matsuoka RL, Karra R, Raviv H, Moshe N, Addadi Y, Golani O, Poss KD, Red-Horse K, Stainier DY, Yaniv K, Distinct origins and molecular mechanisms contribute to lymphatic formation during cardiac growth and regeneration. Elife. 2019 Nov 8;8:e44153
1	J:287857 Gur-Cohen S, Yang H, Baksh SC, Miao Y, Levorse J, Kataru RP, Liu X, de la Cruz-Racelis J, Mehrara BJ, Fuchs E, Stem cell-driven lymphatic remodeling coordinates tissue regeneration. Science. 2019 Dec 6;366(6470):1218-1225
1	J:231463 Haque K, Pandey AK, Zheng HW, Riazuddin S, Sha SH, Puligilla C, MEKK4 Signaling Regulates Sensory Cell Development and Function in the Mouse Inner Ear. J Neurosci. 2016 Jan 27;36(4):1347-61
1*	J:125514 Hartman BH, Hayashi T, Nelson BR, Bermingham-McDonogh O, Reh TA, Dll3 is expressed in developing hair cells in the mammalian cochlea. Dev Dyn. 2007 Oct;236(10):2875-83
1	J:308528 Hernandez Vasquez MN, Ulvmar MH, Gonzalez-Loyola A, Kritikos I, Sun Y, He L, Halin C, Petrova TV, Makinen T, Transcription factor FOXP2 is a flow-induced regulator of collecting lymphatic vessels. EMBO J. 2021 Jun 15;40(12):e107192
1	J:252596 Janardhan HP, Milstone ZJ, Shin M, Lawson ND, Keaney JF Jr, Trivedi CM, Hdac3 regulates lymphovenous and lymphatic valve formation. J Clin Invest. 2017 Nov 1;127(11):4193-4206
1	J:212889 Jurisic G, Maby-El Hajjami H, Karaman S, Ochsenbein AM, Alitalo A, Siddiqui SS, Ochoa Pereira C, Petrova TV, Detmar M, An unexpected role of semaphorin3a-neuropilin-1 signaling in lymphatic vessel maturation and valve formation. Circ Res. 2012 Aug 3;111(4):426-36
1*	J:225741 Kanady JD, Munger SJ, Witte MH, Simon AM, Combining Foxc2 and Connexin37 deletions in mice leads to severe defects in lymphatic vascular growth and remodeling. Dev Biol. 2015 Sep 1;405(1):33-46
1	J:222246 Klotz L, Norman S, Vieira JM, Masters M, Rohling M, Dube KN, Bollini S, Matsuzaki F, Carr CA, Riley PR, Cardiac lymphatics are heterogeneous in origin and respond to injury. Nature. 2015 Jun 4;522(7554):62-7
1	J:216439 Lee KM, Danuser R, Stein JV, Graham D, Nibbs RJ, Graham GJ, The chemokine receptors ACKR2 and CCR2 reciprocally regulate lymphatic vessel density. EMBO J. 2014 Nov 3;33(21):2564-80
1	J:201783 Levet S, Ciais D, Merdzhanova G, Mallet C, Zimmers TA, Lee SJ, Navarro FP, Texier I, Feige JJ, Bailly S, Vittet D, Bone morphogenetic protein 9 (BMP9) controls lymphatic vessel maturation and valve formation. Blood. 2013 Jul 25;122(4):598-607
1	J:244674 Liu X, Pasula S, Song H, Tessneer KL, Dong Y, Hahn S, Yago T, Brophy ML, Chang B, Cai X, Wu H, McManus J, Ichise H, Georgescu C, Wren JD, Griffin C, Xia L, Srinivasan RS, Chen H, Temporal and spatial regulation of epsin abundance and VEGFR3 signaling are required for lymphatic valve formation and function. Sci Signal. 2014 Oct 14;7(347):ra97
1	J:152699 Mouta-Bellum C, Kirov A, Miceli-Libby L, Mancini ML, Petrova TV, Liaw L, Prudovsky I, Thorpe PE, Miura N, Cantley LC, Alitalo K, Fruman DA, Vary CP, Organ-specific lymphangiectasia, arrested lymphatic sprouting, and maturation defects resulting from gene-targeting of the PI3K regulatory isoforms p85alpha, p55alpha, and p50alpha. Dev Dyn. 2009 Aug 24;238(10):2670-2679
1	J:238548 Munger SJ, Davis MJ, Simon AM, Defective lymphatic valve development and chylothorax in mice with a lymphatic-specific deletion of Connexin43. Dev Biol. 2017 Jan 15;421(2):204-218
1	J:231667 Munger SJ, Geng X, Srinivasan RS, Witte MH, Paul DL, Simon AM, Segregated Foxc2, NFATc1 and Connexin expression at normal developing venous valves, and Connexin-specific differences in the valve phenotypes of Cx37, Cx43, and Cx47 knockout mice. Dev Biol. 2016 Apr 15;412(2):173-90
1	J:149138 Norrmen C, Ivanov KI, Cheng J, Zangger N, Delorenzi M, Jaquet M, Miura N, Puolakkainen P, Horsley V, Hu J, Augustin HG, Yla-Herttuala S, Alitalo K, Petrova TV, FOXC2 controls formation and maturation of lymphatic collecting vessels through cooperation with NFATc1. J Cell Biol. 2009 May 4;185(3):439-57
1	J:317760 Ochsenbein AM, Karaman S, Proulx ST, Goldmann R, Chittazhathu J, Dasargyri A, Chong C, Leroux JC, Stanley ER, Detmar M, Regulation of lymphangiogenesis in the diaphragm by macrophages and VEGFR-3 signaling. Angiogenesis. 2016 Oct;19(4):513-24
1	J:308707 Paulson D, Harms R, Ward C, Latterell M, Pazour GJ, Fink DM, Loss of Primary Cilia Protein IFT20 Dysregulates Lymphatic Vessel Patterning in Development and Inflammation. Front Cell Dev Biol. 2021;9:672625
1	J:269234 Pujol F, Hodgson T, Martinez-Corral I, Prats AC, Devenport D, Takeichi M, Genot E, Makinen T, Francis-West P, Garmy-Susini B, Tatin F, Dachsous1-Fat4 Signaling Controls Endothelial Cell Polarization During Lymphatic Valve Morphogenesis-Brief Report. Arterioscler Thromb Vasc Biol. 2017 Sep;37(9):1732-1735
1	J:219810 Qu X, Zhou B, Scott Baldwin H, Tie1 is required for lymphatic valve and collecting vessel development. Dev Biol. 2015 Mar 1;399(1):117-28
1	J:296443 Rondon-Galeano M, Skoczylas R, Bower NI, Simons C, Gordon E, Francois M, Koltowska K, Hogan BM, MAFB modulates the maturation of lymphatic vascular networks in mice. Dev Dyn. 2020 Oct;249(10):1201-1216
1	J:341538 Saygili Demir C, Sabine A, Gong M, Dormond O, Petrova TV, Mechanosensitive mTORC1 signaling maintains lymphatic valves. J Cell Biol. 2023 Jun 5;222(6)
1	J:177488 Srinivasan RS, Oliver G, Prox1 dosage controls the number of lymphatic endothelial cell progenitors and the formation of the lymphovenous valves. Genes Dev. 2011 Oct 15;25(20):2187-97
1	J:228184 Stanczuk L, Martinez-Corral I, Ulvmar MH, Zhang Y, Lavina B, Fruttiger M, Adams RH, Saur D, Betsholtz C, Ortega S, Alitalo K, Graupera M, Makinen T, cKit Lineage Hemogenic Endothelium-Derived Cells Contribute to Mesenteric Lymphatic Vessels. Cell Rep. 2015 Mar 10;
1	J:343278 Subileau M, Vittet D, Ontogenesis of the Mouse Ocular Surface Lymphatic Vascular Network. Invest Ophthalmol Vis Sci. 2023 Dec 1;64(15):7
1	J:171468 Tateya T, Imayoshi I, Tateya I, Ito J, Kageyama R, Cooperative functions of Hes/Hey genes in auditory hair cell and supporting cell development. Dev Biol. 2011 Apr 15;352(2):329-40
1	J:297253 Vila Ellis L, Cain MP, Hutchison V, Flodby P, Crandall ED, Borok Z, Zhou B, Ostrin EJ, Wythe JD, Chen J, Epithelial Vegfa Specifies a Distinct Endothelial Population in the Mouse Lung. Dev Cell. 2020 Mar 9;52(5):617-630.e6
1	J:277430 Yang LM, Cheah KSE, Huh SH, Ornitz DM, Sox2 and FGF20 interact to regulate organ of Corti hair cell and supporting cell development in a spatially-graded manner. PLoS Genet. 2019 Jul;15(7):e1008254
1	J:278463 Yang Y, Cha B, Motawe ZY, Srinivasan RS, Scallan JP, VE-Cadherin Is Required for Lymphatic Valve Formation and Maintenance. Cell Rep. 2019;28(9):2397-2412