Differentiation pathway (Bos taurus)

From WikiPathways

Revision as of 11:03, 21 May 2021 by Eweitz (Talk | contribs)
Jump to: navigation, search
6SortDefinitive endoderm3D matrigel cultureFP6EndodermalAnterior endodermSerumCXCR2CyclopamineAscorbic acidSHHNT5ERetinoic acidA-83-01NOGBMP4SeleniumINHBATGFB1BMP4FGF2DAPTSB431542NiacinamideES/IPS cellsKITEGFVEGFAFGF4IGF-IHGFNOTCH1EGFBMP4NOGWNT3AMultipotent LungProgenitorsHindgut endodermMultipotent endodermalprogenitor cellsHGFFGF4EGFNODALFGF10Retinoic acidFGF10Intestinal Tissueخ² cellsPancreatic progenitorsHepatocytesHepaticprogenitorsBMP4VEGFAKITLGTPOFLT3LGKITLGCSF1IL6IL3VEGFABMP4KITLGTPOIL3EPOINHBAFGF2BMP4FLT3LGTPOFGF2VEGFAFGF2SB431542TGFB1PDGFBIL3IL6VEGFAKITLGIL11DKK1VEGFAWNT1DKK1WNT1VEGFATGFB3NTF4FGF2BMP4FSTNTF4BMP4FGF2GDF5HemangioblastErythropoietic cellsLymphoid progenitorsOsteoclastsEndothelial cellsCardiomyocytesSmooth muscle cellsSkeletal myoblastsOsteogenic cellsMesenchymal stem/precursor cellsAscorbic acidBeta-Glycerophosphoric acidDexamethasoneDexamethasoneINSINSTFOP-9cocultureOP-9 coculture Semisolid cultureOP-9 orMS-5cocultureSortSemisolid cultureMesenchymo-angioblastAdipogenicCellHematopoieticprogenitorsMonocyte/macrophageprogenitorChondrogeniccellsCardiovascular colonyforming cellsVEGFATPOEPOIL6IL3IL11CSF1RTNFSF11Primitive streakMesodermBMP4WNT2BWNT5A54WNT7BWNT2FGF2IL6IL6RBMP4OP-9 coculture MesodermalGABA neuronsEpidermisPA6/MS-5cocultureCortical layersOptic cupNeural progenitorsDA neuronsSort P75+, HNK1Cortical neuronsKeratinocytesAdherent cultureOligodendrocytesNueral retina(NR)Retinal Pigment epithelium (RPE)Neural crest stem cellsSpinal motor neuronsPhotoreceptorsculture on artificialmatrixUtriclestromacultureKSR or adherantcultureRetinal pigment epitheliumOctic hair cells3D matrigel cultureNeuroectodermAstrocytesSFEBq cultureEctodermFGF2INHBASHHNiacinamideTaurineIGF-IFGF8WNT1ALKVitamin ALEFTY1SHHBMP4CNTFNaltrexoneFGF2NODALDKK1PDGFARetinoic acidEGFFGF1FGF2NOGVitamin ASHHSHHINHBAINHBABMP4EctodermalIGF-I38TPOEPOFLT3LGFGF2


Description

This pathway provides an overview of the directed differentiation molecules used to induce early and derivative cell lineages from human pluripotent stem cells. The initial version of this pathway is a direct adaptation of the SnapShot "Directed Differentiation of Pluripotent Stem Cells" pathway authored by Luis A. Williams, Brandi N. Davis-Dusenbery, and Kevin C. Eggan, HHMI, Harvard University, Cell 149, May 25, 2012 Elsevier Inc. DOI 10.1016/j.cell.2012.05.015. http://download.cell.com/pdf/PIIS0092867412005946.pdf. This adaptation was generated by Meenakshi Venkatasubramanian and Krithika Ramasamy Subramanian at Cincinnati Children's Hospital in the laboratory of Nathan Salomonis.

Comments

HomologyConvert 
This pathway was inferred from Homo sapiens pathway WP2848(80009) with a 85.0% conversion rate.

Try the New WikiPathways

View approved pathways at the new wikipathways.org.

Quality Tags

Ontology Terms

 

Bibliography

View all...
  1. Saadoun S, Bell BA, Verkman AS, Papadopoulos MC; ''''; , PubMed Europe PMC Scholia
  2. Farooque M, Isaksson J, Olsson Y; ''Improved recovery after spinal cord trauma in ICAM-1 and P-selectin knockout mice.''; Neuroreport, 1999 PubMed Europe PMC Scholia
  3. Floriddia EM, Rathore KI, Tedeschi A, Quadrato G, Wuttke A, Lueckmann JM, Kigerl KA, Popovich PG, Di Giovanni S; ''''; , PubMed Europe PMC Scholia
  4. Wu J, Stoica BA, Faden AI; ''Cell cycle activation and spinal cord injury.''; Neurotherapeutics, 2011 PubMed Europe PMC Scholia
  5. Resnick DK, Graham SH, Dixon CE, Marion DW; ''Role of cyclooxygenase 2 in acute spinal cord injury.''; J Neurotrauma, 1998 PubMed Europe PMC Scholia
  6. David S, Kroner A; ''Repertoire of microglial and macrophage responses after spinal cord injury.''; Nat Rev Neurosci, 2011 PubMed Europe PMC Scholia
  7. Adjan VV, Hauser KF, Bakalkin G, Yakovleva T, Gharibyan A, Scheff SW, Knapp PE; ''Caspase-3 activity is reduced after spinal cord injury in mice lacking dynorphin: differential effects on glia and neurons.''; Neuroscience, 2007 PubMed Europe PMC Scholia
  8. Terayama R, Bando Y, Murakami K, Kato K, Kishibe M, Yoshida S; ''Neuropsin promotes oligodendrocyte death, demyelination and axonal degeneration after spinal cord injury.''; Neuroscience, 2007 PubMed Europe PMC Scholia
  9. Schwab JM, Frei E, Klusman I, Schnell L, Schwab ME, Schluesener HJ; ''AIF-1 expression defines a proliferating and alert microglial/macrophage phenotype following spinal cord injury in rats.''; J Neuroimmunol, 2001 PubMed Europe PMC Scholia
  10. Tian DS, Dong Q, Pan DJ, He Y, Yu ZY, Xie MJ, Wang W; ''''; , PubMed Europe PMC Scholia
  11. Tonai T, Shiba K, Taketani Y, Ohmoto Y, Murata K, Muraguchi M, Ohsaki H, Takeda E, Nishisho T; ''A neutrophil elastase inhibitor (ONO-5046) reduces neurologic damage after spinal cord injury in rats.''; J Neurochem, 2001 PubMed Europe PMC Scholia
  12. Chu GK, Yu W, Fehlings MG; ''The p75 neurotrophin receptor is essential for neuronal cell survival and improvement of functional recovery after spinal cord injury.''; Neuroscience, 2007 PubMed Europe PMC Scholia
  13. Jain A, McKeon RJ, Brady-Kalnay SM, Bellamkonda RV; ''Sustained delivery of activated Rho GTPases and BDNF promotes axon growth in CSPG-rich regions following spinal cord injury.''; PLoS One, 2011 PubMed Europe PMC Scholia
  14. Saganovأ، K, Gأ،lik J, Blaإ،ko J, Korimovأ، A, Raؤچekovأ، E, Vanickأ½ I; ''''; , PubMed Europe PMC Scholia
  15. Menet V, Prieto M, Privat A, Gimأ©nez y Ribotta M; ''''; , PubMed Europe PMC Scholia
  16. Fernأ،ndez-Martos CM, Gonzأ،lez P, Rodriguez FJ; ''Acute leptin treatment enhances functional recovery after spinal cord injury.''; PLoS One, 2012 PubMed Europe PMC Scholia
  17. DAGCI T, ARMAGAN G, KONYALIOGLU S, YALCIN A; ''Alterations in the expression of the apurinic/apyrimidinic endonuclease-1/redox factor-1 (APE/ref-1) and DNA damage in the caudal region of acute and chronic spinal cord injured rats treated by embryonic neural stem cells.''; Physiol Res, 2009 PubMed Europe PMC Scholia
  18. Fabes J, Anderson P, Yأ،أ±ez-Muأ±oz RJ, Thrasher A, Brennan C, Bolsover S; ''''; , PubMed Europe PMC Scholia
  19. Lee SM, Rosen S, Weinstein P, van Rooijen N, Noble-Haeusslein LJ; ''Prevention of both neutrophil and monocyte recruitment promotes recovery after spinal cord injury.''; J Neurotrauma, 2011 PubMed Europe PMC Scholia
  20. Im YB, Jee MK, Choi JI, Cho HT, Kwon OH, Kang SK; ''''; , PubMed Europe PMC Scholia
  21. Cafferty WB, Duffy P, Huebner E, Strittmatter SM; ''''; , PubMed Europe PMC Scholia
  22. Hashimoto M, Ito T, Fukumitsu H, Nomoto H, Furukawa Y, Furukawa S; ''Stimulation of production of glial cell line-derived neurotrophic factor and nitric oxide by lipopolysaccharide with different dose-responsiveness in cultured rat macrophages.''; Biomed Res, 2005 PubMed Europe PMC Scholia
  23. Eng LF, Ghirnikar RS, Lee YL; ''Glial fibrillary acidic protein: GFAP-thirty-one years (1969-2000).''; Neurochem Res, 2000 PubMed Europe PMC Scholia
  24. ''''; , PubMed Europe PMC Scholia
  25. Erschbamer M, Pernold K, Olson L; ''Inhibiting epidermal growth factor receptor improves structural, locomotor, sensory, and bladder recovery from experimental spinal cord injury.''; J Neurosci, 2007 PubMed Europe PMC Scholia
  26. Lأ³pez-Vales R, Ghasemlou N, Redensek A, Kerr BJ, Barbayianni E, Antonopoulou G, Baskakis C, Rathore KI, Constantinou-Kokotou V, Stephens D, Shimizu T, Dennis EA, Kokotos G, David S; ''Phospholipase A2 superfamily members play divergent roles after spinal cord injury.''; FASEB J, 2011 PubMed Europe PMC Scholia
  27. Genovese T, Mazzon E, Crisafulli C, Di Paola R, Muiأ  C, Esposito E, Bramanti P, Cuzzocrea S; ''TNF-alpha blockage in a mouse model of SCI: evidence for improved outcome.''; Shock, 2008 PubMed Europe PMC Scholia
  28. Saiwai H, Ohkawa Y, Yamada H, Kumamaru H, Harada A, Okano H, Yokomizo T, Iwamoto Y, Okada S; ''The LTB4-BLT1 axis mediates neutrophil infiltration and secondary injury in experimental spinal cord injury.''; Am J Pathol, 2010 PubMed Europe PMC Scholia
  29. Lavezzi AM, Casale V, Oneda R, Weese-Mayer DE, Matturri L; ''Sudden Infant Death Syndrome and Sudden Intrauterine Unexplained Death: Correlation Between Hypoplasia of Raphأƒآ¢أ‚آˆأ‚آڑأƒآکأ‚آ¬أƒآ¯أ‚آ؟أ‚آ½أƒآژأ‚آ©أƒآ¢أ‚آˆأ‚آڑأƒآکأ‚آ¬أƒآ¯أ‚آ؟أ‚آ½أƒآژأ‚آ©أƒآژأ‚آ© Nuclei and Serotonin Transporter Gene Promoter Polymorphism.''; Pediatr Res, 2009 PubMed Europe PMC Scholia
  30. Pajoohesh-Ganji A, Knoblach SM, Faden AI, Byrnes KR; ''Characterization of inflammatory gene expression and galectin-3 function after spinal cord injury in mice.''; Brain Res, 2012 PubMed Europe PMC Scholia
  31. Tohda C, Kuboyama T; ''Current and future therapeutic strategies for functional repair of spinal cord injury.''; Pharmacol Ther, 2011 PubMed Europe PMC Scholia
  32. Kitayama M, Ueno M, Itakura T, Yamashita T; ''Activated microglia inhibit axonal growth through RGMa.''; PLoS One, 2011 PubMed Europe PMC Scholia
  33. Lee JK, Geoffroy CG, Chan AF, Tolentino KE, Crawford MJ, Leal MA, Kang B, Zheng B; ''''; , PubMed Europe PMC Scholia
  34. Pajoohesh-Ganji A, Knoblach SM, Faden AI, Byrnes KR; ''Characterization of inflammatory gene expression and galectin-3 function after spinal cord injury in mice.''; Brain Res, 2012 PubMed Europe PMC Scholia
  35. Sharma HS; ''''; , PubMed Europe PMC Scholia
  36. Di Giovanni S, Knoblach SM, Brandoli C, Aden SA, Hoffman EP, Faden AI; ''''; , PubMed Europe PMC Scholia
  37. ''''; , PubMed Europe PMC Scholia
  38. Chou ST, Byrska-Bishop M, Tober JM, Yao Y, Vandorn D, Opalinska JB, Mills JA, Choi JK, Speck NA, Gadue P, Hardison RC, Nemiroff RL, French DL, Weiss MJ; ''Trisomy 21-associated defects in human primitive hematopoiesis revealed through induced pluripotent stem cells.''; Proc Natl Acad Sci U S A, 2012 PubMed Europe PMC Scholia
  39. Saganovأ، K, Orendأ،covأ، J, Sulla I Jr, Filipcأ­k P, Cأ­zkovأ، D, Vanickأ½ I; ''''; , PubMed Europe PMC Scholia
  40. Myers SA, DeVries WH, Andres KR, Gruenthal MJ, Benton RL, Hoying JB, Hagg T, Whittemore SR; ''CD47 knockout mice exhibit improved recovery from spinal cord injury.''; Neurobiol Dis, 2011 PubMed Europe PMC Scholia
  41. Pineau I, Sun L, Bastien D, Lacroix S; ''Astrocytes initiate inflammation in the injured mouse spinal cord by promoting the entry of neutrophils and inflammatory monocytes in an IL-1 receptor/MyD88-dependent fashion.''; Brain Behav Immun, 2010 PubMed Europe PMC Scholia
  42. Zhang S, Huan W, Wei H, Shi J, Fan J, Zhao J, Shen A, Teng H; ''FOXO3a/p27kip1 expression and essential role after acute spinal cord injury in adult rat.''; J Cell Biochem, 2013 PubMed Europe PMC Scholia
  43. Shim SO, Cafferty WB, Schmidt EC, Kim BG, Fujisawa H, Strittmatter SM; ''PlexinA2 limits recovery from corticospinal axotomy by mediating oligodendrocyte-derived Sema6A growth inhibition.''; Mol Cell Neurosci, 2012 PubMed Europe PMC Scholia
  44. Liu NK, Zhang YP, Han S, Pei J, Xu LY, Lu PH, Shields CB, Xu XM; ''Annexin A1 reduces inflammatory reaction and tissue damage through inhibition of phospholipase A2 activation in adult rats following spinal cord injury.''; J Neuropathol Exp Neurol, 2007 PubMed Europe PMC Scholia
  45. Dekaban GA, Thawer S; ''Pathogenic antibodies are active participants in spinal cord injury.''; J Clin Invest, 2009 PubMed Europe PMC Scholia
  46. Puschmann TB, Turnley AM; ''''; , PubMed Europe PMC Scholia
  47. Wang YF, Fan ZK, Cao Y, Yu DS, Zhang YQ, Wang YS; ''2-Methoxyestradiol inhibits the up-regulation of AQP4 and AQP1 expression after spinal cord injury.''; Brain Res, 2011 PubMed Europe PMC Scholia
  48. Chalimoniuk M, King-Pospisil K, Metz CN, Toborek M; ''Macrophage migration inhibitory factor induces cell death and decreases neuronal nitric oxide expression in spinal cord neurons.''; Neuroscience, 2006 PubMed Europe PMC Scholia
  49. ''''; , PubMed Europe PMC Scholia
  50. Huang C, Han X, Li X, Lam E, Peng W, Lou N, Torres A, Yang M, Garre JM, Tian GF, Bennett MV, Nedergaard M, Takano T; ''Critical role of connexin 43 in secondary expansion of traumatic spinal cord injury.''; J Neurosci, 2012 PubMed Europe PMC Scholia
  51. ''''; , PubMed Europe PMC Scholia
  52. Woods AS, Kaminski R, Oz M, Wang Y, Hauser K, Goody R, Wang HY, Jackson SN, Zeitz P, Zeitz KP, Zolkowska D, Schepers R, Nold M, Danielson J, Grأ¤slund A, Vukojevic V, Bakalkin G, Basbaum A, Shippenberg T; ''Decoy peptides that bind dynorphin noncovalently prevent NMDA receptor-mediated neurotoxicity.''; J Proteome Res, 2006 PubMed Europe PMC Scholia
  53. McKillop WM, Dragan M, Schedl A, Brown A; ''''; , PubMed Europe PMC Scholia
  54. Poulain M, Ober EA; ''Interplay between Wnt2 and Wnt2bb controls multiple steps of early foregut-derived organ development.''; Development, 2011 PubMed Europe PMC Scholia
  55. Yu CG, Yezierski RP, Joshi A, Raza K, Li Y, Geddes JW; ''''; , PubMed Europe PMC Scholia

History

View all...
CompareRevisionActionTimeUserComment
134266view06:37, 19 July 2024EgonwRemoved template comments
117496view11:03, 21 May 2021EweitzModified title
105914view11:40, 16 August 2019MkutmonHMDB identifier normalization
89941view13:55, 6 October 2016EgonwModified description
87894view12:51, 25 July 2016SusanOntology Term : 'regulatory pathway' added !
80827view15:27, 30 June 2015MkutmonNew pathway

External references

DataNodes

View all...
NameTypeDatabase referenceComment
A-83-01Metabolite16218924 (PubChem-compound)
ALKGeneProductENSBTAG00000007379 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000171094
Ascorbic acidMetaboliteHMDB0000044 (HMDB)
BMP4GeneProductENSBTAG00000003835 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = L:652
Beta-Glycerophosphoric acidMetaboliteHMDB0002520 (HMDB)
CNTFGeneProductENSBTAG00000003624 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000242689
CSF1GeneProductENSBTAG00000000283 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000184371
CSF1RGeneProductENSBTAG00000012771 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000182578
CXCR2GeneProductENSBTAG00000026753 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000163464
CyclopamineMetabolite442972 (PubChem-compound)
DAPTMetabolite5311272 (PubChem-compound) http://pubchem.ncbi.nlm.nih.gov/summary/summary.cgi?cid=5311272&loc=ec_rcs
DKK1GeneProductENSBTAG00000014218 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000107984
DexamethasoneMetaboliteHMDB0015364 (HMDB)
EGFGeneProduct
EPOGeneProductENSBTAG00000003430 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000130427
FGF10GeneProduct
FGF1GeneProductENSBTAG00000005198 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000113578
FGF2GeneProductENSBTAG00000005691 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000138685
FGF4GeneProductENSBTAG00000012563 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000075388
FGF8GeneProductENSBTAG00000001530 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000107831
FLT3LGGeneProductENSBTAG00000038045 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000090554
FSTGeneProductENSBTAG00000003329 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000134363
GDF5GeneProductENSBTAG00000004429 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000125965
HGFGeneProductENSBTAG00000017664 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000019991
IGF-IGeneProductENSBTAG00000011082 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000017427
IL11GeneProductENSBTAG00000047400 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000095752
IL3GeneProduct
IL6GeneProductENSBTAG00000014921 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000136244
IL6RGeneProductENSBTAG00000018474 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000160712
INHBAGeneProductENSBTAG00000002912 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = L:3624
INSGeneProduct
KITGeneProductENSBTAG00000002699 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000157404
KITLGGeneProductENSBTAG00000017549 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000049130
LEFTY1GeneProductENSBTAG00000002855 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000243709
NODALGeneProductENSBTAG00000013090 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000156574
NOGGeneProductENSBTAG00000040282 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000183691
NOTCH1GeneProductENSBTAG00000022799 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = L:4851
NT5EGeneProductENSBTAG00000045976 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000135318
NTF4GeneProductENSBTAG00000047078 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000225950
NaltrexoneMetaboliteHMDB0014842 (HMDB)
NiacinamideMetaboliteHMDB0001406 (HMDB)
PDGFAGeneProductENSBTAG00000014541 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000197461
PDGFBGeneProductENSBTAG00000021697 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000100311
Retinoic acidMetaboliteHMDB0001852 (HMDB)
SB431542Metabolite4521392 (PubChem-compound) http://pubchem.ncbi.nlm.nih.gov/summary/summary.cgi?cid=4521392
SHHGeneProductENSBTAG00000024552 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000164690
SeleniumMetaboliteHMDB0001349 (HMDB)
TFGeneProductENSBTAG00000007273 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000091513
TGFB1GeneProductENSBTAG00000020457 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = L:7040
TGFB3GeneProductENSBTAG00000012004 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000119699
TNFSF11GeneProductENSBTAG00000008924 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000120659
TPOGeneProduct
TaurineMetaboliteHMDB0000251 (HMDB)
VEGFAGeneProductENSBTAG00000047561 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000112715
Vitamin AMetaboliteHMDB0000305 (HMDB)
WNT1GeneProductENSBTAG00000015364 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000125084
WNT2BGeneProductENSBTAG00000014291 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = L:7482
WNT2GeneProductENSBTAG00000008097 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = L:7472
WNT3AGeneProductENSBTAG00000039397 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = En:ENSG00000154342
WNT5AGeneProductENSBTAG00000020221 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = L:7474
WNT7BGeneProductENSBTAG00000009532 (Ensembl) HomologyConvert: Homo sapiens to Bos taurus: Original ID = L:7477

Annotated Interactions

No annotated interactions
Personal tools