Citations for

1	CHCHD3, IMMT, SAMM50
	Sub-mitochondrial localization of the genetic-tagged mitochondrial intermembrane space-bridging components Mic19, Mic60 and Sam50.
	Sastri M, Darshi M, Mackey M, Ramachandra R, Ju S, Phan S, Adams S, Stein K, Douglas CR, Kim JJ, Ellisman MH, Taylor SS, Perkins GA.
	J Cell Sci 2017
2	DNM1L, SAMM50
	SAMM50 Affects Mitochondrial Morphology through the Association of Drp1 in Mammalian Cells.
	Liu S, Gao Y, Zhang C, Li H, Pan S, Wang X, Du S, Deng Z, Wang L, Song Z, Chen S.
	FEBS Lett 590(9):1313-23. doi: 10.1002/1873-3468.12170. Epub 2016 Apr 15. 2016
3	CHCHD6, IMMT, SAMM50
	Mitofilin and CHCHD6 physically interact with Sam50 to sustain cristae structure.
	Ding C, Wu Z, Huang L, Wang Y, Xue J, Chen S, Deng Z, Wang L, Song Z, Chen S.
	Sci Rep 5:16064. doi: 10.1038/srep16064. 2015
4	CHCHD3, IMMT, SAMM50
	Detailed analysis of the human mitochondrial contact site complex indicate a hierarchy of subunits.
	Ott C, Dorsch E, Fraunholz M, Straub S, Kozjak-Pavlovic V.
	PLoS One 10(3):e0120213. doi: 10.1371/journal.pone.0120213. eCollection 2015. 2015
5	APOOL, IMMT, MINOS1, SAMM50
	APOOL is a cardiolipin-binding constituent of the Mitofilin/MINOS protein complex determining cristae morphology in mammalian mitochondria.
	Weber TA, Koob S, Heide H, Wittig I, Head B, van der Bliek A, Brandt U, Mittelbronn M, Reichert AS.
	PLoS One 8(5):e63683. doi: 10.1371/journal.pone.0063683. Print 2013. 2013
6	IMMT, MINOS1, SAMM50, TOMM40
	Role of mitochondrial inner membrane organizing system in protein biogenesis of the mitochondrial outer membrane.
	Bohnert M, Wenz LS, Zerbes RM, Horvath SE, Stroud DA, von der Malsburg K, Müller JM, Oeljeklaus S, Perschil I, Warscheid B, Chacinska A, Veenhuis M, van der Klei IJ, Daum G, Wiedemann N, Becker T, Pfanner N, van der Laan M.
	Mol Biol Cell 23(20):3948-56. doi: 10.1091/mbc.E12-04-0295. Epub 2012 Aug 23. 2012
7	SAMM50
	Sam50 functions in mitochondrial intermembrane space bridging and biogenesis of respiratory complexes.
	Ott C, Ross K, Straub S, Thiede B, Götz M, Goosmann C, Krischke M, Mueller MJ, Krohne G, Rudel T, Kozjak-Pavlovic V.
	Mol Cell Biol 32(6):1173-88. doi: 10.1128/MCB.06388-11. Epub 2012 Jan 17. 2012
8	CHCHD6, DNAJC11, CHCHD3, SAMM50, IMMT, MTX1, MTX2
	The mitochondrial inner membrane protein mitofilin exists as a complex with SAM50, metaxins 1 and 2, coiled-coil-helix coiled-coil-helix domain-containing protein 3 and 6 and DnaJC11.
	Xie J, Marusich MF, Souda P, Whitelegge J, Capaldi RA.
	FEBS Lett 581(18):3545-9. Epub 2007 Jun 27. 2007
9	MTX1, MTX2, SAMM50
	Conserved roles of Sam50 and metaxins in VDAC biogenesis.
	Kozjak-Pavlovic V, Ross K, Benlasfer N, Kimmig S, Karlas A, Rudel T.
	EMBO Rep 8(6):576-82. Epub 2007 May 18. 2007
10	SAMM50
	An essential role of Sam50 in the protein sorting and assembly machinery of the mitochondrial outer membrane.
	Kozjak V, Wiedemann N, Milenkovic D, Lohaus C, Meyer HE, Guiard B, Meisinger C, Pfanner N.
	J Biol Chem 278(49):48520-3. Epub 2003 Oct 21. 2003
11	ADIPOR1, AIG1, AMDHD2, ANKHD1, ANKRD20A1, ANKRD27, ANKRD32, APH1A, APH1B, APIP, APOLD1, ARS2, ASCC1, ATXN10, BOLA1, C10orf10, C14orf166, C19orf56, C20orf109, C20orf4, C2orf14, C2orf16, C6orf60, C6orf62, CALCOCO1, CAMKK1, CCDC113, CCDC53, CCDC9, CCNB2, CD99L2, CDK5RAP1, CDK5RAP1, CGI-96, CHMP5, CHPF, CIAO2B, CLIC4, CLPB, COPZ1, COQ4, COQ6, CRELD1, CUTC, CYBRD1, DDX47, DERA, DHRS7, DHRS7B, DHRS7B, DPH5, DTNB, DYNC1LI2, EEF1AKNMT, ELOVL1, EMC9, ERGIC3, ESPN, EXOSC1, EXOSC3, FAHD2A, FAM108B1, FAM18B, FAM32A, FAM82B, FCF1, FIP1L1, FLYWCH1, FYTTD1, GABARAPL1, GET4, GLOD4, GLRX2, GOLT1B, GOLT1B, GPR89A, GPS2, GRIPAP1, HDDC2, HDGFRP3, HIGD1A, IER3IP1, IFT52, ISOC1, KIF18A, KIF20B, KIRREL2, KL3, KLC2, LACTB2, LHX6, LMAN2L, LUC7L2, MAF1, MAGMAS, MECR, MED23, MED31, MEMO, METTL9, MIS12, MOABHD5, MOB4, MPC1, MRPL11, MRPL2, MRPL4, MRPL48, MRPS15, MRPS16, MRPS16P2, MRPS18C, MRPS23, MRPS33, MTCH1, MTERF3, MTO1, MYCBPAP, NCALD, NCIE2, NDUFAF1, NELF, NELFB, NFU1, NMD3, NOSIP, NRBF2, NRIP2, NRIP2, NRSN2, NUDT12, OTUD6B, PARVB, PCBD2, PHF20L1, PIGT, PMFBP1, PNAS-4, PRPF31, PRSS23, PTRH2, QRSL1, RBMX2, RGMA, RGMB, RNF103-CHMP3, RNF123, RNF146, RRNAD1, RRP15, RWDD1, RWDD3, SAMHD1, SAMM50, SCCPDH, SECISBP2, SEMA4F, SERBP1, SERBP1, SERP1, SH3BP5L, SIDT2, SLC25A24, SLC25A39, SLC35C2, SLC37A3, SLC41A2, SLC6A16, SLMO2, SMC6, SPEF1, SQRDL, STARD10, STMN2, SYF2, TARDBP, TBC1D3, TBL2, TFB1M, TFIP11, THAP4, THAP4, TIGD6, TIMMDC1, TMED5, TMED7, TMEM47, TPPP3, TRAF7, TRAPPC12, TRAPPC4, TRMT6, TRNT1, TSC22D3, TSPAN14, TWF2, UBE1DC1, UBE2J1, UCHL5, UNC50, USP39, UTP11L, VPS36, WDR37, WDR50, WDR91, WSB1, YARS2, YIPF3, YPEL5, ZC2HC1A, ZC3H13, ZDHHC9, ZMYND12, ZMYND15, ZRANB3
	Identification of novel human genes evolutionarily conserved in Caenorhabditis elegans by comparative proteomics.
	Lai CH, Chou CY, Ch'ang LY, Liu CS, Lin W.
	Genome Res 10(5):703-13. 2000