Gene Expression Literature Summary

• Symbol: Ibsp
• Name: integrin binding sialoprotein
• ID: MGI:96389

126 matching records from 126 references.

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

Age	E9.5	E10	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	E	P
Immunohistochemistry (section)						1		1		4		3		3				1			3
In situ RNA (section)		1	2	2	6	4	5	11	6	16	7	15	4	23	5	6	2	17			15
In situ RNA (whole mount)								2	1		1	3		2	1	1			1
Northern blot															1			1		1	2
RT-PCR	1				1	1		4		9		3		5		4		4	2	1	24
cDNA clones										1			1	1

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

Ibsp  integrin binding sialoprotein   (Synonyms: bone sialoprotein, Bsp, BSP, Bsp2)
Results	Reference
1	J:79879 Akiyama H, Chaboissier MC, Martin JF, Schedl A, De Crombrugghe B, The transcription factor Sox9 has essential roles in successive steps of the chondrocyte differentiation pathway and is required for expression of Sox5 and Sox6. Genes Dev. 2002 Nov 1;16(21):2813-28
1	J:90567 Akiyama H, Lyons JP, Mori-Akiyama Y, Yang X, Zhang R, Zhang Z, Deng JM, Taketo MM, Nakamura T, Behringer RR, McCrea PD, de Crombrugghe B, Interactions between Sox9 and beta-catenin control chondrocyte differentiation. Genes Dev. 2004 May 1;18(9):1072-87
1*	J:138140 Aqeilan RI, Hassan MQ, de Bruin A, Hagan JP, Volinia S, Palumbo T, Hussain S, Lee SH, Gaur T, Stein GS, Lian JB, Croce CM, The WWOX tumor suppressor is essential for postnatal survival and normal bone metabolism. J Biol Chem. 2008 Aug 1;283(31):21629-39
1	J:119152 Arnold MA, Kim Y, Czubryt MP, Phan D, McAnally J, Qi X, Shelton JM, Richardson JA, Bassel-Duby R, Olson EN, MEF2C transcription factor controls chondrocyte hypertrophy and bone development. Dev Cell. 2007 Mar;12(3):377-89
5	J:90056 Bialek P, Kern B, Yang X, Schrock M, Sosic D, Hong N, Wu H, Yu K, Ornitz DM, Olson EN, Justice MJ, Karsenty G, A twist code determines the onset of osteoblast differentiation. Dev Cell. 2004 Mar;6(3):423-35
1	J:188176 Caparros-Martin JA, Valencia M, Reytor E, Pacheco M, Fernandez M, Perez-Aytes A, Gean E, Lapunzina P, Peters H, Goodship JA, Ruiz-Perez VL, The ciliary Evc/Evc2 complex interacts with Smo and controls Hedgehog pathway activity in chondrocytes by regulating Sufu/Gli3 dissociation and Gli3 trafficking in primary cilia. Hum Mol Genet. 2013 Jan 1;22(1):124-39
1	J:325251 Chen A, Liao S, Cheng M, Ma K, Wu L, Lai Y, Qiu X, Yang J, Xu J, Hao S, Wang X, Lu H, Chen X, Liu X, Huang X, Li Z, Hong Y, Jiang Y, Peng J, Liu S, Shen M, Liu C, Li Q, Yuan Y, Wei X, Zheng H, Feng W, Wang Z, Liu Y, Wang Z, Yang Y, Xiang H, Han L, Qin B, Guo P, Lai G, Munoz-Canoves P, Maxwell PH, Thiery JP, Wu QF, Zhao F, Chen B, Li M, Dai X, Wang S, Kuang H, Hui J, Wang L, Fei JF, Wang O, Wei X, Lu H, Wang B, Liu S, Gu Y, Ni M, Zhang W, Mu F, Yin Y, Yang H, Lisby M, Cornall RJ, Mulder J, Uhlen M, Esteban MA, Li Y, Liu L, Xu X, Wang J, Spatiotemporal transcriptomic atlas of mouse organogenesis using DNA nanoball-patterned arrays. Cell. 2022 May 12;185(10):1777-1792.e21
1	J:208766 Chen J, Tu X, Esen E, Joeng KS, Lin C, Arbeit JM, Ruegg MA, Hall MN, Ma L, Long F, WNT7B promotes bone formation in part through mTORC1. PLoS Genet. 2014 Jan;10(1):e1004145
1	J:224562 Chen Q, Sinha K, Deng JM, Yasuda H, Krahe R, Behringer RR, de Crombrugghe B, Mesenchymal Deletion of Histone Demethylase NO66 in Mice Promotes Bone Formation. J Bone Miner Res. 2015 Sep;30(9):1608-17
2*	J:211539 Chen Y, Gridley T, Compensatory regulation of the Snai1 and Snai2 genes during chondrogenesis. J Bone Miner Res. 2013 Jun;28(6):1412-21
1	J:79920 Dabovic B, Chen Y, Colarossi C, Zambuto L, Obata H, Rifkin DB, Bone defects in latent TGF-beta binding protein (Ltbp)-3 null mice; a role for Ltbp in TGF-beta presentation. J Endocrinol. 2002 Oct;175(1):129-41
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:115876 Dobreva G, Chahrour M, Dautzenberg M, Chirivella L, Kanzler B, Farinas I, Karsenty G, Grosschedl R, SATB2 is a multifunctional determinant of craniofacial patterning and osteoblast differentiation. Cell. 2006 Jun 2;125(5):971-86
1	J:225092 Duverger O, Isaac J, Zah A, Hwang J, Berdal A, Lian JB, Morasso MI, In vivo impact of Dlx3 conditional inactivation in neural crest-derived craniofacial bones. J Cell Physiol. 2013 Mar;228(3):654-64
2*	J:195901 Ehlen H, Inactivation of anoctamin-6/Tmem16f, a regulator of phosphatidylserine scrambling in osteoblasts, leads to decreased mineral deposition in skeletal tissues. J Bone Miner Res. 2013;28(2):246-59
2	J:129752 Elefteriou F, Benson MD, Sowa H, Starbuck M, Liu X, Ron D, Parada LF, Karsenty G, ATF4 mediation of NF1 functions in osteoblast reveals a nutritional basis for congenital skeletal dysplasiae. Cell Metab. 2006 Dec;4(6):441-51
3	J:295760 Felsenthal N, Rubin S, Stern T, Krief S, Pal D, Pryce BA, Schweitzer R, Zelzer E, Development of migrating tendon-bone attachments involves replacement of progenitor populations. Development. 2018 Dec 18;145(24):dev165381
1	J:147689 Fisher MC, Clinton GM, Maihle NJ, Dealy CN, Requirement for ErbB2/ErbB signaling in developing cartilage and bone. Dev Growth Differ. 2007 Aug;49(6):503-13
1	J:316280 Fujikawa J, Tanaka M, Itoh S, Fukushi T, Kurisu K, Takeuchi Y, Morisaki I, Wakisaka S, Abe M, Kruppel-like factor 4 expression in osteoblasts represses osteoblast-dependent osteoclast maturation. Cell Tissue Res. 2014 Oct;358(1):177-87
4	J:144188 Funato N, Chapman SL, McKee MD, Funato H, Morris JA, Shelton JM, Richardson JA, Yanagisawa H, Hand2 controls osteoblast differentiation in the branchial arch by inhibiting DNA binding of Runx2. Development. 2009 Feb;136(4):615-25
2	J:217210 Funato N, Nakamura M, Richardson JA, Srivastava D, Yanagisawa H, Loss of Tbx1 induces bone phenotypes similar to cleidocranial dysplasia. Hum Mol Genet. 2015 Jan 15;24(2):424-35
1	J:73345 Gaikwad JS, Cavender A, D'Souza RN, Identification of tooth-specific downstream targets of Runx2. Gene. 2001 Nov 14;279(1):91-7
1	J:185118 Galli GG, Honnens de Lichtenberg K, Carrara M, Hans W, Wuelling M, Mentz B, Multhaupt HA, Fog CK, Jensen KT, Rappsilber J, Vortkamp A, Coulton L, Fuchs H, Gailus-Durner V, Hrabe de Angelis M, Calogero RA, Couchman JR, Lund AH, Prdm5 regulates collagen gene transcription by association with RNA polymerase II in developing bone. PLoS Genet. 2012 May;8(5):e1002711
1	J:111426 Ganss B, Kobayashi H, The zinc finger transcription factor Zfp60 is a negative regulator of cartilage differentiation. J Bone Miner Res. 2002 Dec;17(12):2151-60
1	J:214984 Gonzalez-Martin MC, Mallo M, Ros MA, Long bone development requires a threshold of Hox function. Dev Biol. 2014 Aug 15;392(2):454-65
1	J:333075 Goodwin AF, Chen CP, Vo NT, Bush JO, Klein OD, YAP/TAZ Regulate Elevation and Bone Formation of the Mouse Secondary Palate. J Dent Res. 2020 Nov;99(12):1387-1396
1	J:336727 Gorrell L, Makareeva E, Omari S, Otsuru S, Leikin S, ER, Mitochondria, and ISR Regulation by mt-HSP70 and ATF5 upon Procollagen Misfolding in Osteoblasts. Adv Sci (Weinh). 2022 Oct;9(29):e2201273
2	J:63717 Gorski JL, Estrada L, Hu C, Liu Z, Skeletal-specific expression of fgd1 during bone formation and skeletal defects in faciogenital dysplasia (FGDY; aarskog syndrome). Dev Dyn. 2000 Aug;218(4):573-86
1*	J:161785 Gu WX, Kania A, Identification of genes controlled by LMX1B in E13.5 mouse limbs. Dev Dyn. 2010 Aug;239(8):2246-55
1	J:233764 Gullard A, Gluhak-Heinrich J, Papagerakis S, Sohn P, Unterbrink A, Chen S, MacDougall M, MEPE Localization in the Craniofacial Complex and Function in Tooth Dentin Formation. J Histochem Cytochem. 2016 Apr;64(4):224-36
1	J:306057 Guo L, Iida A, Bhavani GS, Gowrishankar K, Wang Z, Xue JY, Wang J, Miyake N, Matsumoto N, Hasegawa T, Iizuka Y, Matsuda M, Nakashima T, Takechi M, Iseki S, Yambe S, Nishimura G, Koseki H, Shukunami C, Girisha KM, Ikegawa S, Deficiency of TMEM53 causes a previously unknown sclerosing bone disorder by dysregulation of BMP-SMAD signaling. Nat Commun. 2021 Apr 6;12(1):2046
1	J:300927 Han X, Feng J, Guo T, Loh YE, Yuan Y, Ho TV, Cho CK, Li J, Jing J, Janeckova E, He J, Pei F, Bi J, Song B, Chai Y, Runx2-Twist1 interaction coordinates cranial neural crest guidance of soft palate myogenesis. Elife. 2021 Jan 22;10:e62387
1	J:167738 Hardouin SN, Guo R, Romeo PH, Nagy A, Aubin JE, Impaired mesenchymal stem cell differentiation and osteoclastogenesis in mice deficient for Igf2-P2 transcripts. Development. 2011 Jan;138(2):203-13
2*	J:115165 Hecht J, Seitz V, Urban M, Wagner F, Robinson PN, Stiege A, Dieterich C, Kornak U, Wilkening U, Brieske N, Zwingman C, Kidess A, Stricker S, Mundlos S, Detection of novel skeletogenesis target genes by comprehensive analysis of a Runx2(-/-) mouse model. Gene Expr Patterns. 2007 Jan;7(1-2):102-12
1*	J:233142 Hilton MJ, Tu X, Wu X, Bai S, Zhao H, Kobayashi T, Kronenberg HM, Teitelbaum SL, Ross FP, Kopan R, Long F, Notch signaling maintains bone marrow mesenchymal progenitors by suppressing osteoblast differentiation. Nat Med. 2008 Mar;14(3):306-14
1	J:185618 Hojo H, Ohba S, Yano F, Saito T, Ikeda T, Nakajima K, Komiyama Y, Nakagata N, Suzuki K, Takato T, Kawaguchi H, Chung UI, Gli1 protein participates in Hedgehog-mediated specification of osteoblast lineage during endochondral ossification. J Biol Chem. 2012 May 18;287(21):17860-9
5	J:217455 Holm E, Aubin JE, Hunter GK, Beier F, Goldberg HA, Loss of bone sialoprotein leads to impaired endochondral bone development and mineralization. Bone. 2015 Feb;71:145-54
1*	J:296375 Holmes G, Gonzalez-Reiche AS, Lu N, Zhou X, Rivera J, Kriti D, Sebra R, Williams AA, Donovan MJ, Potter SS, Pinto D, Zhang B, van Bakel H, Jabs EW, Integrated Transcriptome and Network Analysis Reveals Spatiotemporal Dynamics of Calvarial Suturogenesis. Cell Rep. 2020 Jul 7;32(1):107871
2	J:316922 Holmes G, Gonzalez-Reiche AS, Saturne M, Motch Perrine SM, Zhou X, Borges AC, Shewale B, Richtsmeier JT, Zhang B, van Bakel H, Jabs EW, Single-cell analysis identifies a key role for Hhip in murine coronal suture development. Nat Commun. 2021 Dec 8;12(1):7132
1	J:231474 Hung IH, Schoenwolf GC, Lewandoski M, Ornitz DM, A combined series of Fgf9 and Fgf18 mutant alleles identifies unique and redundant roles in skeletal development. Dev Biol. 2016 Mar 1;411(1):72-84
1*	J:171508 Ikegami D, Akiyama H, Suzuki A, Nakamura T, Nakano T, Yoshikawa H, Tsumaki N, Sox9 sustains chondrocyte survival and hypertrophy in part through Pik3ca-Akt pathways. Development. 2011 Apr;138(8):1507-19
2*	J:54095 Inada M, Yasui T, Nomura S, Miyake S, Deguchi K, Himeno M, Sato M, Yamagiwa H, Kimura T, Yasui N, Ochi T, Endo N, Kitamura Y, Kishimoto T, Komori T, Maturational disturbance of chondrocytes in Cbfa1-deficient mice. Dev Dyn. 1999 Apr;214(4):279-90
1*	J:87044 Ishii M, Merrill AE, Chan YS, Gitelman I, Rice DP, Sucov HM, Maxson RE Jr, Msx2 and Twist cooperatively control the development of the neural crest-derived skeletogenic mesenchyme of the murine skull vault. Development. 2003 Dec;130(24):6131-42
1	J:153633 Ito T, Yadav N, Lee J, Furumatsu T, Yamashita S, Yoshida K, Taniguchi N, Hashimoto M, Tsuchiya M, Ozaki T, Lotz M, Bedford MT, Asahara H, Arginine methyltransferase CARM1/PRMT4 regulates endochondral ossification. BMC Dev Biol. 2009;9:47
7*	J:91219 James MJ, Jarvinen E, Thesleff I, Bono1: a gene associated with regions of deposition of bone and dentine. Gene Expr Patterns. 2004 Sep;4(5):595-9
3*	J:102103 Jensen P, Magdaleno S, Lehman KM, Rice DS, Lavallie ER, Collins-Racie L, McCoy JM, Curran T, A neurogenomics approach to gene expression analysis in the developing brain. Brain Res Mol Brain Res. 2004 Dec 20;132(2):116-27
3	J:154905 Joeng KS, Long F, The Gli2 transcriptional activator is a crucial effector for Ihh signaling in osteoblast development and cartilage vascularization. Development. 2009 Dec;136(24):4177-85
2	J:143588 Kamiya N, Ye L, Kobayashi T, Mochida Y, Yamauchi M, Kronenberg HM, Feng JQ, Mishina Y, BMP signaling negatively regulates bone mass through sclerostin by inhibiting the canonical Wnt pathway. Development. 2008 Nov;135(22):3801-11
1*	J:160585 Kesper DA, Didt-Koziel L, Vortkamp A, Gli2 activator function in preosteoblasts is sufficient to mediate Ihh-dependent osteoblast differentiation, whereas the repressor function of Gli2 is dispensable for endochondral ossification. Dev Dyn. 2010 Jun;239(6):1818-26
1	J:104946 Kieslinger M, Folberth S, Dobreva G, Dorn T, Croci L, Erben R, Consalez GG, Grosschedl R, EBF2 regulates osteoblast-dependent differentiation of osteoclasts. Dev Cell. 2005 Dec;9(6):757-67
1	J:108608 Kilic G, Wang J, Sosa-Pineda B, Osteopontin is a novel marker of pancreatic ductal tissues and of undifferentiated pancreatic precursors in mice. Dev Dyn. 2006 Jun;235(6):1659-67
1	J:279226 Kim TH, Bae CH, Lee JC, Kim JE, Yang X, de Crombrugghe B, Cho ES, Osterix regulates tooth root formation in a site-specific manner. J Dent Res. 2015 Mar;94(3):430-8
1	J:263685 Kitami K, Kitami M, Kaku M, Wang B, Komatsu Y, BRCA1 and BRCA2 tumor suppressors in neural crest cells are essential for craniofacial bone development. PLoS Genet. 2018 May;14(5):e1007340
2	J:233640 Kyrylkova K, Iwaniec UT, Philbrick KA, Leid M, BCL11B regulates sutural patency in the mouse craniofacial skeleton. Dev Biol. 2016 Jul 15;415(2):251-60
1	J:127543 Lana-Elola E, Rice R, Grigoriadis AE, Rice DP, Cell fate specification during calvarial bone and suture development. Dev Biol. 2007 Nov 15;311(2):335-46
1*	J:160257 Liakhovitskaia A, Lana-Elola E, Stamateris E, Rice DP, van 't Hof RJ, Medvinsky A, The essential requirement for Runx1 in the development of the sternum. Dev Biol. 2010 Apr 15;340(2):539-46
1	J:306541 Lin YC, Niceta M, Muto V, Vona B, Pagnamenta AT, Maroofian R, Beetz C, van Duyvenvoorde H, Dentici ML, Lauffer P, Vallian S, Ciolfi A, Pizzi S, Bauer P, Gruning NM, Bellacchio E, Del Fattore A, Petrini S, Shaheen R, Tiosano D, Halloun R, Pode-Shakked B, Albayrak HM, Isik E, Wit JM, Dittrich M, Freire BL, Bertola DR, Jorge AAL, Barel O, Sabir AH, Al Tenaiji AMJ, Taji SM, Al-Sannaa N, Al-Abdulwahed H, Digilio MC, Irving M, Anikster Y, Bhavani GSL, Girisha KM, Haaf T, Taylor JC, Dallapiccola B, Alkuraya FS, Yang RB, Tartaglia M, SCUBE3 loss-of-function causes a recognizable recessive developmental disorder due to defective bone morphogenetic protein signaling. Am J Hum Genet. 2021 Jan 7;108(1):115-133
1	J:316213 Lindsey RC, Xing W, Pourteymoor S, Godwin C, Gow A, Mohan S, Novel Role for Claudin-11 in the Regulation of Osteoblasts via Modulation of ADAM10-Mediated Notch Signaling. J Bone Miner Res. 2019 Oct;34(10):1910-1922
1	J:152843 Luo J, Zhou W, Zhou X, Li D, Weng J, Yi Z, Cho SG, Li C, Yi T, Wu X, Li XY, de Crombrugghe B, Hook M, Liu M, Regulation of bone formation and remodeling by G-protein-coupled receptor 48. Development. 2009 Aug;136(16):2747-56
3*	J:213450 Machida A, Okuhara S, Harada K, Iseki S, Difference in apical and basal growth of the frontal bone primordium in Foxc1(ch/ch) mice. Congenit Anom (Kyoto). 2014 Aug;54(3):172-7
1	J:320197 Magaletta ME, Lobo M, Kernfeld EM, Aliee H, Huey JD, Parsons TJ, Theis FJ, Maehr R, Integration of single-cell transcriptomes and chromatin landscapes reveals regulatory programs driving pharyngeal organ development. Nat Commun. 2022 Jan 24;13(1):457
1*	J:127540 Margagliotti S, Clotman F, Pierreux CE, Beaudry JB, Jacquemin P, Rousseau GG, Lemaigre FP, The Onecut transcription factors HNF-6/OC-1 and OC-2 regulate early liver expansion by controlling hepatoblast migration. Dev Biol. 2007 Nov 15;311(2):579-89
1	J:153980 Matsushita T, Chan YY, Kawanami A, Balmes G, Landreth GE, Murakami S, Extracellular signal-regulated kinase 1 (ERK1) and ERK2 play essential roles in osteoblast differentiation and in supporting osteoclastogenesis. Mol Cell Biol. 2009 Nov;29(21):5843-57
3	J:296737 Matsuura VKSK, Yoshida CA, Komori H, Sakane C, Yamana K, Jiang Q, Komori T, Expression of a Constitutively Active Form of Hck in Chondrocytes Activates Wnt and Hedgehog Signaling Pathways, and Induces Chondrocyte Proliferation in Mice. Int J Mol Sci. 2020 Apr 12;21(8):2682
1	J:151888 Mead TJ, Yutzey KE, Notch pathway regulation of chondrocyte differentiation and proliferation during appendicular and axial skeleton development. Proc Natl Acad Sci U S A. 2009 Aug 25;106(34):14420-5
3*	J:153103 Mikura A, Okuhara S, Saito M, Ota M, Ueda K, Iseki S, Association of tenascin-W expression with mineralization in mouse calvarial development. Congenit Anom (Kyoto). 2009 Jun;49(2):77-84
2	J:145520 Moenning A, Jager R, Egert A, Kress W, Wardelmann E, Schorle H, Sustained platelet-derived growth factor receptor alpha signaling in osteoblasts results in craniosynostosis by overactivating the phospholipase C-gamma pathway. Mol Cell Biol. 2009 Feb;29(3):881-91
1	J:327295 Mohamed FF, Ge C, Cowling RT, Lucas D, Hallett SA, Ono N, Binrayes AA, Greenberg B, Franceschi RT, The collagen receptor, discoidin domain receptor 2, functions in Gli1-positive skeletal progenitors and chondrocytes to control bone development. Bone Res. 2022 Feb 9;10(1):11
1	J:334575 Mohamed FF, Ge C, Hallett SA, Bancroft AC, Cowling RT, Ono N, Binrayes AA, Greenberg B, Levi B, Kaartinen VM, Franceschi RT, Control of craniofacial development by the collagen receptor, discoidin domain receptor 2. Elife. 2023 Jan 19;12
3*	J:96853 Mukhopadhyay P, Greene RM, Zacharias W, Weinrich MC, Singh S, Young WW Jr, Pisano MM, Developmental gene expression profiling of mammalian, fetal orofacial tissue. Birth Defects Res A Clin Mol Teratol. 2004 Dec;70(12):912-26
2	J:74344 Nakashima K, Zhou X, Kunkel G, Zhang Z, Deng JM, Behringer RR, de Crombrugghe B, The novel zinc finger-containing transcription factor osterix is required for osteoblast differentiation and bone formation. Cell. 2002 Jan 11;108(1):17-29
1*	J:321553 Neupane S, Berardinelli SJ, Cameron DC, Grady RC, Komatsu DE, Percival CJ, Takeuchi M, Ito A, Liu TW, Nairn AV, Moremen KW, Haltiwanger RS, Holdener BC, O-fucosylation of thrombospondin type 1 repeats is essential for ECM remodeling and signaling during bone development. Matrix Biol. 2022 Feb 12;
2*	J:186799 Nieminen P, Morgan NV, Fenwick AL, Parmanen S, Veistinen L, Mikkola ML, van der Spek PJ, Giraud A, Judd L, Arte S, Brueton LA, Wall SA, Mathijssen IM, Maher ER, Wilkie AO, Kreiborg S, Thesleff I, Inactivation of IL11 signaling causes craniosynostosis, delayed tooth eruption, and supernumerary teeth. Am J Hum Genet. 2011 Jul 15;89(1):67-81
1	J:118794 Oka K, Oka S, Sasaki T, Ito Y, Bringas P Jr, Nonaka K, Chai Y, The role of TGF-beta signaling in regulating chondrogenesis and osteogenesis during mandibular development. Dev Biol. 2007 Mar 1;303(1):391-404
4*	J:123755 Osmundsen H, Landin MA, From SH, Kolltveit KM, Risnes S, Changes in gene-expression during development of the murine molar tooth germ. Arch Oral Biol. 2007 Sep;52(9):803-13
1	J:179841 Pacheco M, Valencia M, Caparros-Martin JA, Mulero F, Goodship JA, Ruiz-Perez VL, Evc works in chondrocytes and osteoblasts to regulate multiple aspects of growth plate development in the appendicular skeleton and cranial base. Bone. 2012 Jan;50(1):28-41
1	J:258274 Patra D, DeLassus E, Mueller J, Abou-Ezzi G, Sandell LJ, Site-1 protease regulates skeletal stem cell population and osteogenic differentiation in mice. Biol Open. 2018 Feb 22;7(2):bio032094
1	J:135374 Patra D, Xing X, Davies S, Bryan J, Franz C, Hunziker EB, Sandell LJ, Site-1 protease is essential for endochondral bone formation in mice. J Cell Biol. 2007 Nov 19;179(4):687-700
1*	J:214651 Pischon N, Maki JM, Weisshaupt P, Heng N, Palamakumbura AH, N'Guessan P, Ding A, Radlanski R, Renz H, Bronckers TA, Myllyharju J, Kielbassa AM, Kleber BM, Bernimoulin JP, Trackman PC, Lysyl oxidase (lox) gene deficiency affects osteoblastic phenotype. Calcif Tissue Int. 2009 Aug;85(2):119-26
1*	J:238377 Potter AS, Potter SS, Molecular Anatomy of Palate Development. PLoS One. 2015;10(7):e0132662
1	J:209351 Prashar P, Yadav PS, Samarjeet F, Bandyopadhyay A, Microarray meta-analysis identifies evolutionarily conserved BMP signaling targets in developing long bones. Dev Biol. 2014 May 15;389(2):192-207
3	J:299239 Qin X, Jiang Q, Nagano K, Moriishi T, Miyazaki T, Komori H, Ito K, Mark KV, Sakane C, Kaneko H, Komori T, Runx2 is essential for the transdifferentiation of chondrocytes into osteoblasts. PLoS Genet. 2020 Nov;16(11):e1009169
2*	J:255349 Rauch F, Geng Y, Lamplugh L, Hekmatnejad B, Gaumond MH, Penney J, Yamanaka Y, Moffatt P, Crispr-Cas9 engineered osteogenesis imperfecta type V leads to severe skeletal deformities and perinatal lethality in mice. Bone. 2018 Feb;107:131-142
7	J:61430 Rice DP, Aberg T, Chan Y, Tang Z, Kettunen PJ, Pakarinen L, Maxson RE, Thesleff I, Integration of FGF and TWIST in calvarial bone and suture development. Development. 2000 May;127(9):1845-55
2	J:163175 Rice DP, Connor EC, Veltmaat JM, Lana-Elola E, Veistinen L, Tanimoto Y, Bellusci S, Rice R, Gli3Xt-J/Xt-J mice exhibit lambdoid suture craniosynostosis which results from altered osteoprogenitor proliferation and differentiation. Hum Mol Genet. 2010 Sep 1;19(17):3457-67
1*	J:285326 Rice DP, Kim HJ, Thesleff I, Apoptosis in murine calvarial bone and suture development. Eur J Oral Sci. 1999 Aug;107(4):265-75
7	J:84142 Rice DP, Rice R, Thesleff I, Molecular mechanisms in calvarial bone and suture development, and their relation to craniosynostosis. Eur J Orthod. 2003 Apr;25(2):139-48
2*	J:85739 Rice R, Rice DP, Olsen BR, Thesleff I, Progression of calvarial bone development requires Foxc1 regulation of Msx2 and Alx4. Dev Biol. 2003 Oct 1;262(1):75-87
1	J:263575 Ruiz P, Martin-Millan M, Gonzalez-Martin MC, Almeida M, Gonzalez-Macias J, Ros MA, CathepsinKCre mediated deletion of betacatenin results in dramatic loss of bone mass by targeting both osteoclasts and osteoblastic cells. Sci Rep. 2016 Nov 2;6:36201
1*	J:139935 Samee N, Geoffroy V, Marty C, Schiltz C, Vieux-Rochas M, Levi G, de Vernejoul MC, Dlx5, a positive regulator of osteoblastogenesis, is essential for osteoblast-osteoclast coupling. Am J Pathol. 2008 Sep;173(3):773-80
2	J:105169 Sasaki T, Ito Y, Bringas P Jr, Chou S, Urata MM, Slavkin H, Chai Y, TGF{beta}-mediated FGF signaling is crucial for regulating cranial neural crest cell proliferation during frontal bone development. Development. 2006 Jan;133(2):371-81
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