Gene Expression Literature Summary

• Symbol: Lyve1
• Name: lymphatic vessel endothelial hyaluronan receptor 1
• ID: MGI:2136348

293 matching records from 293 references.

Summary by Age and Assay: Numbers in the table indicate the number of results matching the search criteria.

Age	E8	E8.5	E9	E9.5	E10	E10.5	E11	E11.5	E12	E12.5	E13	E13.5	E14	E14.5	E15	E15.5	E16	E16.5	E17	E17.5	E18	E18.5	E19.5	E20	E	P
Immunohistochemistry (section)		1	1	6	4	18	3	28	8	44	4	47	3	66	6	25	2	40	1	20	6	30	2		14	83
In situ RNA (section)								1		1				2		1										2
Immunohistochemistry (whole mount)	1	1				2	2	4	2	9	4	14	2	31	1	24	5	27	1	20	1	23	1	2	1	50
In situ RNA (whole mount)						1																1
Western blot								1				1
RT-PCR				1		1		1		4		3		4		1		3		2		3				6

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

Lyve1  lymphatic vessel endothelial hyaluronan receptor 1   (Synonyms: 1200012G08Rik, lymphatic vessel endothelial HA receptor-1, Lyve-1, Xlkd1)
Results	Reference
4	J:111210 Abtahian F, Guerriero A, Sebzda E, Lu MM, Zhou R, Mocsai A, Myers EE, Huang B, Jackson DG, Ferrari VA, Tybulewicz V, Lowell CA, Lepore JJ, Koretzky GA, Kahn ML, Regulation of blood and lymphatic vascular separation by signaling proteins SLP-76 and Syk. Science. 2003 Jan 10;299(5604):247-51
1	J:321578 Ang PS, Matrongolo MJ, Tischfield MA, The growth and expansion of meningeal lymphatic networks are affected in craniosynostosis. Development. 2022 Jan 1;149(1):dev200065
1	J:217592 Arnold TD, Niaudet C, Pang MF, Siegenthaler J, Gaengel K, Jung B, Ferrero GM, Mukouyama YS, Fuxe J, Akhurst R, Betsholtz C, Sheppard D, Reichardt LF, Excessive vascular sprouting underlies cerebral hemorrhage in mice lacking alphaVbeta8-TGFbeta signaling in the brain. Development. 2014 Dec;141(23):4489-99
6	J:284215 Auvinen K, Lokka E, Mokkala E, Jappinen N, Tyystjarvi S, Saine H, Peurla M, Shetty S, Elima K, Rantakari P, Salmi M, Fenestral diaphragms and PLVAP associations in liver sinusoidal endothelial cells are developmentally regulated. Sci Rep. 2019 Oct 30;9(1):15698
5	J:152968 Bazigou E, Xie S, Chen C, Weston A, Miura N, Sorokin L, Adams R, Muro AF, Sheppard D, Makinen T, Integrin-alpha9 is required for fibronectin matrix assembly during lymphatic valve morphogenesis. Dev Cell. 2009 Aug;17(2):175-86
1*	J:313619 Bedogni F, Hevner RF, Cell-Type-Specific Gene Expression in Developing Mouse Neocortex: Intermediate Progenitors Implicated in Axon Development. Front Mol Neurosci. 2021;14:686034
1	J:188330 Benezech C, Mader E, Desanti G, Khan M, Nakamura K, White A, Ware CF, Anderson G, Caamano JH, Lymphotoxin-beta Receptor Signaling through NF-kappaB2-RelB Pathway Reprograms Adipocyte Precursors as Lymph Node Stromal Cells. Immunity. 2012 Oct 19;37(4):721-34
2	J:159868 Benezech C, White A, Mader E, Serre K, Parnell S, Pfeffer K, Ware CF, Anderson G, Caamano JH, Ontogeny of stromal organizer cells during lymph node development. J Immunol. 2010 Apr 15;184(8):4521-30
2	J:240616 Benito-Jardon M, Klapproth S, Gimeno-LLuch I, Petzold T, Bharadwaj M, Muller DJ, Zuchtriegel G, Reichel CA, Costell M, The fibronectin synergy site re-enforces cell adhesion and mediates a crosstalk between integrin classes. Elife. 2017 Jan 16;6:e22264
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
3	J:162815 Bertozzi CC, Schmaier AA, Mericko P, Hess PR, Zou Z, Chen M, Chen CY, Xu B, Lu MM, Zhou D, Sebzda E, Santore MT, Merianos DJ, Stadtfeld M, Flake AW, Graf T, Skoda R, Maltzman JS, Koretzky GA, Kahn ML, Platelets regulate lymphatic vascular development through CLEC-2-SLP-76 signaling. Blood. 2010 Jul 29;116(4):661-70
6	J:327898 Bobe S, Beckmann D, Klump DM, Dierkes C, Kirschnick N, Redder E, Bauer N, Schafers M, Erapaneedi R, Risse B, van de Pavert SA, Kiefer F, Volumetric imaging reveals VEGF-C-dependent formation of hepatic lymph vessels in mice. Front Cell Dev Biol. 2022;10:949896
4	J:159112 Bohmer R, Neuhaus B, Buhren S, Zhang D, Stehling M, Bock B, Kiefer F, Regulation of developmental lymphangiogenesis by Syk(+) leukocytes. Dev Cell. 2010 Mar 16;18(3):437-49
3	J:186594 Bos FL, Caunt M, Peterson-Maduro J, Planas-Paz L, Kowalski J, Karpanen T, van Impel A, Tong R, Ernst JA, Korving J, van Es JH, Lammert E, Duckers HJ, Schulte-Merker S, CCBE1 is essential for mammalian lymphatic vascular development and enhances the lymphangiogenic effect of vascular endothelial growth factor-C in vivo. Circ Res. 2011 Aug 19;109(5):486-91
4	J:269938 Bovay E, Sabine A, Prat-Luri B, Kim S, Son K, Willrodt AH, Olsson C, Halin C, Kiefer F, Betsholtz C, Jeon NL, Luther SA, Petrova TV, Multiple roles of lymphatic vessels in peripheral lymph node development. J Exp Med. 2018 Nov 5;215(11):2760-2777
4*	J:206581 Bowles J, Secker G, Nguyen C, Kazenwadel J, Truong V, Frampton E, Curtis C, Skoczylas R, Davidson TL, Miura N, Hong YK, Koopman P, Harvey NL, Francois M, Control of retinoid levels by CYP26B1 is important for lymphatic vascular development in the mouse embryo. Dev Biol. 2014 Feb 1;386(1):25-33
1	J:351095 Brouillard P, Murtomaki A, Leppanen VM, Hyytiainen M, Mestre S, Potier L, Boon LM, Revencu N, Greene A, Anisimov A, Salo MH, Hinttala R, Eklund L, Quere I, Alitalo K, Vikkula M, Loss-of-function mutations of the TIE1 receptor tyrosine kinase cause late-onset primary lymphedema. J Clin Invest. 2024 May 30;134(14)
1	J:235773 Bui HM, Enis D, Robciuc MR, Nurmi HJ, Cohen J, Chen M, Yang Y, Dhillon V, Johnson K, Zhang H, Kirkpatrick R, Traxler E, Anisimov A, Alitalo K, Kahn ML, Proteolytic activation defines distinct lymphangiogenic mechanisms for VEGFC and VEGFD. J Clin Invest. 2016 Jun 1;126(6):2167-80
1*	J:200762 Buttler K, Becker J, Pukrop T, Wilting J, Maldevelopment of dermal lymphatics in Wnt5a-knockout-mice. Dev Biol. 2013 Sep 15;381(2):365-76
3*	J:136688 Buttler K, Ezaki T, Wilting J, Proliferating mesodermal cells in murine embryos exhibiting macrophage and lymphendothelial characteristics. BMC Dev Biol. 2008;8:43
4*	J:108556 Buttler K, Kreysing A, von Kaisenberg CS, Schweigerer L, Gale N, Papoutsi M, Wilting J, Mesenchymal cells with leukocyte and lymphendothelial characteristics in murine embryos. Dev Dyn. 2006 Jun;235(6):1554-1562
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
4	J:302542 Cahill TJ, Sun X, Ravaud C, Villa Del Campo C, Klaourakis K, Lupu IE, Lord AM, Browne C, Jacobsen SEW, Greaves DR, Jackson DG, Cowley SA, James W, Choudhury RP, Vieira JM, Riley PR, Tissue-resident macrophages regulate lymphatic vessel growth and patterning in the developing heart. Development. 2021 Feb 3;148(3):dev194563
2	J:282508 Camara A, Cordeiro OG, Alloush F, Sponsel J, Chypre M, Onder L, Asano K, Tanaka M, Yagita H, Ludewig B, Flacher V, Mueller CG, Lymph Node Mesenchymal and Endothelial Stromal Cells Cooperate via the RANK-RANKL Cytokine Axis to Shape the Sinusoidal Macrophage Niche. Immunity. 2019 Jun 18;50(6):1467-1481.e6
2	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:171033 Carramolino L, Fuentes J, Garcia-Andres C, Azcoitia V, Riethmacher D, Torres M, Platelets play an essential role in separating the blood and lymphatic vasculatures during embryonic angiogenesis. Circ Res. 2010 Apr 16;106(7):1197-201
2	J:233304 Cha B, Geng X, Mahamud MR, Fu J, Mukherjee A, Kim Y, Jho EH, Kim TH, Kahn ML, Xia L, Dixon JB, Chen H, Srinivasan RS, Mechanotransduction activates canonical Wnt/beta-catenin signaling to promote lymphatic vascular patterning and the development of lymphatic and lymphovenous valves. Genes Dev. 2016 Jun 15;30(12):1454-69
1	J:224823 Chen AC, Donovan A, Ned-Sykes R, Andrews NC, Noncanonical role of transferrin receptor 1 is essential for intestinal homeostasis. Proc Natl Acad Sci U S A. 2015 Sep 15;112(37):11714-9
2	J:190484 Chen CY, Bertozzi C, Zou Z, Yuan L, Lee JS, Lu M, Stachelek SJ, Srinivasan S, Guo L, Vicente A, Mericko P, Levy RJ, Makinen T, Oliver G, Kahn ML, Blood flow reprograms lymphatic vessels to blood vessels. J Clin Invest. 2012 Jun 1;122(6):2006-17
2	J:217615 Chen HI, Poduri A, Numi H, Kivela R, Saharinen P, McKay AS, Raftrey B, Churko J, Tian X, Zhou B, Wu JC, Alitalo K, Red-Horse K, VEGF-C and aortic cardiomyocytes guide coronary artery stem development. J Clin Invest. 2014 Nov;124(11):4899-914
1	J:254639 Chen L, Martino V, Dombkowski A, Williams T, West-Mays J, Gage PJ, AP-2beta Is a Downstream Effector of PITX2 Required to Specify Endothelium and Establish Angiogenic Privilege During Corneal Development. Invest Ophthalmol Vis Sci. 2016 Mar;57(3):1072-81
4	J:159824 Chen L, Mupo A, Huynh T, Cioffi S, Woods M, Jin C, McKeehan W, Thompson-Snipes L, Baldini A, Illingworth E, Tbx1 regulates Vegfr3 and is required for lymphatic vessel development. J Cell Biol. 2010 May 3;189(3):417-24
1*	J:243375 Choi D, Park E, Jung E, Seong YJ, Yoo J, Lee E, Hong M, Lee S, Ishida H, Burford J, Peti-Peterdi J, Adams RH, Srikanth S, Gwack Y, Chen CS, Vogel HJ, Koh CJ, Wong AK, Hong YK, Laminar flow downregulates Notch activity to promote lymphatic sprouting. J Clin Invest. 2017 Apr 03;127(4):1225-1240
1	J:283927 Choi SY, Bae H, Jeong SH, Park I, Cho H, Hong SP, Lee DH, Lee CK, Park JS, Suh SH, Choi J, Yang MJ, Jang JY, Onder L, Moon JH, Jeong HS, Adams RH, Kim JM, Ludewig B, Song JH, Lim DS, Koh GY, YAP/TAZ direct commitment and maturation of lymph node fibroblastic reticular cells. Nat Commun. 2020 Jan 24;11(1):519
2	J:248815 Cordeiro OG, Chypre M, Brouard N, Rauber S, Alloush F, Romera-Hernandez M, Benezech C, Li Z, Eckly A, Coles MC, Rot A, Yagita H, Leon C, Ludewig B, Cupedo T, Lanza F, Mueller CG, Integrin-Alpha IIb Identifies Murine Lymph Node Lymphatic Endothelial Cells Responsive to RANKL. PLoS One. 2016;11(3):e0151848
1	J:211805 Coxam B, Sabine A, Bower NI, Smith KA, Pichol-Thievend C, Skoczylas R, Astin JW, Frampton E, Jaquet M, Crosier PS, Parton RG, Harvey NL, Petrova TV, Schulte-Merker S, Francois M, Hogan BM, Pkd1 regulates lymphatic vascular morphogenesis during development. Cell Rep. 2014 May 8;7(3):623-33
3	J:237076 Crosswhite PL, Podsiadlowska JJ, Curtis CD, Gao S, Xia L, Srinivasan RS, Griffin CT, CHD4-regulated plasmin activation impacts lymphovenous hemostasis and hepatic vascular integrity. J Clin Invest. 2016 Jun 01;126(6):2254-66
2	J:154975 D'Amico G, Jones DT, Nye E, Sapienza K, Ramjuan AR, Reynolds LE, Robinson SD, Kostourou V, Martinez D, Aubyn D, Grose R, Thomas GJ, Spencer-Dene B, Zicha D, Davies D, Tybulewicz V, Hodivala-Dilke KM, Regulation of lymphatic-blood vessel separation by endothelial Rac1. Development. 2009 Dec;136(23):4043-53
1	J:207983 D'Amico G, Korhonen EA, Anisimov A, Zarkada G, Holopainen T, Hagerling R, Kiefer F, Eklund L, Sormunen R, Elamaa H, Brekken RA, Adams RH, Koh GY, Saharinen P, Alitalo K, Tie1 deletion inhibits tumor growth and improves angiopoietin antagonist therapy. J Clin Invest. 2014 Feb 3;124(2):824-34
4	J:159507 D'Amico G, Korhonen EA, Waltari M, Saharinen P, Laakkonen P, Alitalo K, Loss of endothelial Tie1 receptor impairs lymphatic vessel development-brief report. Arterioscler Thromb Vasc Biol. 2010 Feb;30(2):207-9
4	J:93150 Dagenais SL, Hartsough RL, Erickson RP, Witte MH, Butler MG, Glover TW, Foxc2 is expressed in developing lymphatic vessels and other tissues associated with lymphedema-distichiasis syndrome. Gene Expr Patterns. 2004 Oct;4(6):611-9
1	J:306023 Dani N, Herbst RH, McCabe C, Green GS, Kaiser K, Head JP, Cui J, Shipley FB, Jang A, Dionne D, Nguyen L, Rodman C, Riesenfeld SJ, Prochazka J, Prochazkova M, Sedlacek R, Zhang F, Bryja V, Rozenblatt-Rosen O, Habib N, Regev A, Lehtinen MK, A cellular and spatial map of the choroid plexus across brain ventricles and ages. Cell. 2021 May 27;184(11):3056-3074.e21
1*	J:291486 Daniel E, Barlow HR, Sutton GI, Gu X, Htike Y, Cowdin MA, Cleaver O, Cyp26b1 is an essential regulator of distal airway epithelial differentiation during lung development. Development. 2020 Feb 20;147(4):dev181560
1	J:330696 Darche M, Verschueren A, Belle M, Boucherit L, Fouquet S, Sahel JA, Chedotal A, Cascone I, Paques M, Three-dimensional characterization of developing and adult ocular vasculature in mice using in toto clearing. Commun Biol. 2022 Oct 27;5(1):1135
2	J:137723 Dellinger M, Hunter R, Bernas M, Gale N, Yancopoulos G, Erickson R, Witte M, Defective remodeling and maturation of the lymphatic vasculature in Angiopoietin-2 deficient mice. Dev Biol. 2008 Jul 15;319(2):309-20
4	J:207561 Dellinger MT, Meadows SM, Wynne K, Cleaver O, Brekken RA, Vascular endothelial growth factor receptor-2 promotes the development of the lymphatic vasculature. PLoS One. 2013;8(9):e74686
3	J:188626 Dicke N, Pielensticker N, Degen J, Hecker J, Tress O, Bald T, Gellhaus A, Winterhager E, Willecke K, Peripheral lymphangiogenesis in mice depends on ectodermal connexin-26 (Gjb2). J Cell Sci. 2011 Aug 15;124(Pt 16):2806-15
2	J:228958 Dieterich LC, Klein S, Mathelier A, Sliwa-Primorac A, Ma Q, Hong YK, Shin JW, Hamada M, Lizio M, Itoh M, Kawaji H, Lassmann T, Daub CO, Arner E, Carninci P, Hayashizaki Y, Forrest AR, Wasserman WW, Detmar M, DeepCAGE Transcriptomics Reveal an Important Role of the Transcription Factor MAFB in the Lymphatic Endothelium. Cell Rep. 2015 Nov 17;13(7):1493-504
1*	J:153498 Diez-Roux G, Banfi S, Sultan M, Geffers L, Anand S, Rozado D, Magen A, Canidio E, Pagani M, Peluso I, Lin-Marq N, Koch M, Bilio M, Cantiello I, Verde R, De Masi C, Bianchi SA, Cicchini J, Perroud E, Mehmeti S, Dagand E, Schrinner S, Nurnberger A, SchmidtK, Metz K, Zwingmann C, Brieske N, Springer C, Hernandez AM, Herzog S, Grabbe F, Sieverding C, Fischer B, Schrader K, Brockmeyer M, Dettmer S, Helbig C, Alunni V, Battaini MA, Mura C, Henrichsen CN, Garcia-Lopez R, Echevarria D, Puelles E, et al., A high-resolution anatomical atlas of the transcriptome in the mouse embryo. PLoS Biol. 2011;9(1):e1000582
1	J:236915 Dilg D, Saleh RN, Phelps SE, Rose Y, Dupays L, Murphy C, Mohun T, Anderson RH, Scambler PJ, Chapgier AL, HIRA Is Required for Heart Development and Directly Regulates Tnni2 and Tnnt3. PLoS One. 2016;11(8):e0161096
1	J:330505 Drake KA, Chaney C, Patel M, Das A, Bittencourt J, Cohn M, Carroll TJ, Transcription Factors YAP/TAZ and SRF Cooperate To Specify Renal Myofibroblasts in the Developing Mouse Kidney. J Am Soc Nephrol. 2022 Aug 2;
2	J:282096 Duan Y, Wang H, Mitchell-Silbaugh K, Cai S, Fan F, Li Y, Tang H, Wang G, Fang X, Liu J, Jia N, Jing R, Ouyang K, Heat shock protein 60 regulates yolk sac erythropoiesis in mice. Cell Death Dis. 2019 Oct 10;10(10):766
1	J:315679 Farley A, Lloyd S, Dayton M, Biben C, Stonehouse O, Taoudi S, Severe thrombocytopenia is sufficient for fetal and neonatal intracerebral hemorrhage to occur. Blood. 2021 Sep 9;138(10):885-897
1	J:210971 Fatima A, Culver A, Culver F, Liu T, Dietz WH, Thomson BR, Hadjantonakis AK, Quaggin SE, Kume T, Murine Notch1 is required for lymphatic vascular morphogenesis during development. Dev Dyn. 2014 Jul;243(7):957-64
2	J:237068 Fatima A, Wang Y, Uchida Y, Norden P, Liu T, Culver A, Dietz WH, Culver F, Millay M, Mukouyama YS, Kume T, Foxc1 and Foxc2 deletion causes abnormal lymphangiogenesis and correlates with ERK hyperactivation. J Clin Invest. 2016 Jul 01;126(7):2437-51
2	J:341659 Fernandes LM, Tresemer J, Zhang J, Rios JJ, Scallan JP, Dellinger MT, Hyperactive KRAS/MAPK signaling disrupts normal lymphatic vessel architecture and function. Front Cell Dev Biol. 2023;11:1276333
1	J:181715 Finney BA, Schweighoffer E, Navarro-Nunez L, Benezech C, Barone F, Hughes CE, Langan SA, Lowe KL, Pollitt AY, Mourao-Sa D, Sheardown S, Nash GB, Smithers N, Reis e Sousa C, Tybulewicz VL, Watson SP, CLEC-2 and Syk in the megakaryocytic/platelet lineage are essential for development. Blood. 2012 Feb 16;119(7):1747-56
7*	J:186497 Flaht A, Jankowska-Steifer E, Radomska DM, Madej M, Gula G, Kujawa M, Ratajska A, Cellular phenotypes and spatio-temporal patterns of lymphatic vessel development in embryonic mouse hearts. Dev Dyn. 2012 Sep;241(9):1473-86
3	J:211183 Flaht-Zabost A, Gula G, Ciszek B, Czarnowska E, Jankowska-Steifer E, Madej M, Niderla-Bielinska J, Radomska-Lesniewska D, Ratajska A, Cardiac mouse lymphatics: developmental and anatomical update. Anat Rec (Hoboken). 2014 Jun;297(6):1115-30
2	J:115909 Foo SS, Turner CJ, Adams S, Compagni A, Aubyn D, Kogata N, Lindblom P, Shani M, Zicha D, Adams RH, Ephrin-B2 controls cell motility and adhesion during blood-vessel-wall assembly. Cell. 2006 Jan 13;124(1):161-73
1	J:143564 Francois M, Caprini A, Hosking B, Orsenigo F, Wilhelm D, Browne C, Paavonen K, Karnezis T, Shayan R, Downes M, Davidson T, Tutt D, Cheah KS, Stacker SA, Muscat GE, Achen MG, Dejana E, Koopman P, Sox18 induces development of the lymphatic vasculature in mice. Nature. 2008 Dec 4;456(7222):643-7
2*	J:183953 Francois M, Short K, Secker GA, Combes A, Schwarz Q, Davidson TL, Smyth I, Hong YK, Harvey NL, Koopman P, Segmental territories along the cardinal veins generate lymph sacs via a ballooning mechanism during embryonic lymphangiogenesis in mice. Dev Biol. 2012 Apr 15;364(2):89-98
2	J:144581 Fu J, Gerhardt H, McDaniel JM, Xia B, Liu X, Ivanciu L, Ny A, Hermans K, Silasi-Mansat R, McGee S, Nye E, Ju T, Ramirez MI, Carmeliet P, Cummings RD, Lupu F, Xia L, Endothelial cell O-glycan deficiency causes blood/lymphatic misconnections and consequent fatty liver disease in mice. J Clin Invest. 2008 Nov;118(11):3725-37
1	J:310429 Furtado GC, Pacer ME, Bongers G, Benezech C, He Z, Chen L, Berin MC, Kollias G, Caamano JH, Lira SA, TNFalpha-dependent development of lymphoid tissue in the absence of RORgammat+ lymphoid tissue inducer cells. Mucosal Immunol. 2014;7(3):602-14
1	J:215601 Gage PJ, Kuang C, Zacharias AL, The homeodomain transcription factor PITX2 is required for specifying correct cell fates and establishing angiogenic privilege in the developing cornea. Dev Dyn. 2014 Nov;243(11):1391-400
1	J:339855 Gannoun L, De Schrevel C, Belle M, Dauguet N, Achouri Y, Loriot A, Vanderaa C, Cordi S, Dili A, Heremans Y, Rooman I, Leclercq IA, Jacquemin P, Gatto L, Lemaigre FP, Axon guidance genes control hepatic artery development. Development. 2023 Aug 15;150(16):dev201642
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2	J:208880 Gauvrit S, Philippe J, Lesage M, Tjwa M, Godin I, Germain S, The role of RNA interference in the developmental separation of blood and lymphatic vasculature. Vasc Cell. 2014;6(1):9
2	J:266493 Gauvrit S, Villasenor A, Strilic B, Kitchen P, Collins MM, Marin-Juez R, Guenther S, Maischein HM, Fukuda N, Canham MA, Brickman JM, Bogue CW, Jayaraman PS, Stainier DYR, HHEX is a transcriptional regulator of the VEGFC/FLT4/PROX1 signaling axis during vascular development. Nat Commun. 2018 Jul 13;9(1):2704
5	J:228882 Geng X, Cha B, Mahamud MR, Lim KC, Silasi-Mansat R, Uddin MK, Miura N, Xia L, Simon AM, Engel JD, Chen H, Lupu F, Srinivasan RS, Multiple mouse models of primary lymphedema exhibit distinct defects in lymphovenous valve development. Dev Biol. 2016 Jan 1;409(1):218-33
2	J:308918 Geng X, Yanagida K, Akwii RG, Choi D, Chen L, Ho Y, Cha B, Mahamud MR, Berman de Ruiz K, Ichise H, Chen H, Wythe JD, Mikelis CM, Hla T, Srinivasan RS, S1PR1 regulates the quiescence of lymphatic vessels by inhibiting laminar shear stress-dependent VEGF-C signaling. JCI Insight. 2020 Jul 23;5(14)
3	J:243226 Geraud C, Koch PS, Zierow J, Klapproth K, Busch K, Olsavszky V, Leibing T, Demory A, Ulbrich F, Diett M, Singh S, Sticht C, Breitkopf-Heinlein K, Richter K, Karppinen SM, Pihlajaniemi T, Arnold B, Rodewald HR, Augustin HG, Schledzewski K, Goerdt S, GATA4-dependent organ-specific endothelial differentiation controls liver development and embryonic hematopoiesis. J Clin Invest. 2017 Mar 01;127(3):1099-1114
1	J:261727 Gil HJ, Ma W, Oliver G, A novel podoplanin-GFPCre mouse strain for gene deletion in lymphatic endothelial cells. Genesis. 2018 Apr;56(4):e23102
5*	J:90285 Gittenberger-De Groot AC, Van Den Akker NM, Bartelings MM, Webb S, Van Vugt JM, Haak MC, Abnormal lymphatic development in trisomy 16 mouse embryos precedes nuchal edema. Dev Dyn. 2004 Jun;230(2):378-84
7*	J:137168 Gordon EJ, Gale NW, Harvey NL, Expression of the hyaluronan receptor LYVE-1 is not restricted to the lymphatic vasculature; LYVE-1 is also expressed on embryonic blood vessels. Dev Dyn. 2008 Jul;237(7):1901-9
4	J:167063 Gordon EJ, Rao S, Pollard JW, Nutt SL, Lang RA, Harvey NL, Macrophages define dermal lymphatic vessel calibre during development by regulating lymphatic endothelial cell proliferation. Development. 2010 Nov;137(22):3899-910
1	J:175454 Goss AM, Tian Y, Cheng L, Yang J, Zhou D, Cohen ED, Morrisey EE, Wnt2 signaling is necessary and sufficient to activate the airway smooth muscle program in the lung by regulating myocardin/Mrtf-B and Fgf10 expression. Dev Biol. 2011 Aug 15;356(2):541-52
4	J:302563 Gula G, Ruminski S, Niderla-Bielinska J, Jasinska A, Kiernozek E, Jankowska-Steifer E, Flaht-Zabost A, Ratajska A, Potential functions of embryonic cardiac macrophages in angiogenesis, lymphangiogenesis and extracellular matrix remodeling. Histochem Cell Biol. 2021 Jan;155(1):117-132
1	J:330572 Guo FH, Guan YN, Guo JJ, Zhang LJ, Qiu JJ, Ji Y, Chen AF, Jing Q, Single-Cell Transcriptome Analysis Reveals Embryonic Endothelial Heterogeneity at Spatiotemporal Level and Multifunctions of MicroRNA-126 in Mice. Arterioscler Thromb Vasc Biol. 2022 Mar;42(3):326-342
1	J:270164 Guo M, Du Y, Gokey JJ, Ray S, Bell SM, Adam M, Sudha P, Perl AK, Deshmukh H, Potter SS, Whitsett JA, Xu Y, Single cell RNA analysis identifies cellular heterogeneity and adaptive responses of the lung at birth. Nat Commun. 2019 Jan 3;10(1):37
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