1 | MDN1 |
The MIDAS domain of AAA mechanoenzyme Mdn1 forms catch bonds with two different substrates. | |
Mickolajczyk KJ, Olinares PDB, Chait BT, Liu S, Kapoor TM. | |
Elife. Feb 11;11:e73534. doi: 10.7554/eLife.73534. 2022 | |
2 | GNL2, MDN1, MKI67 |
RNAmetasome network for macromolecule biogenesis in human cells | |
Iuchi S, Paulo JA. | |
Commun Biol. Dec 15;4(1):1399. doi: 10.1038/s42003-021-02928-y. 2021 | |
3 | MDN1 |
Long-range intramolecular allostery and regulation in the dynein-like AAA protein Mdn1 | |
Mickolajczyk KJ, Olinares PDB, Niu Y, Chen N, Warrington SE, Sasaki Y, Walz T, Chait BT, Kapoor TM | |
Proc Natl Acad Sci U S A. Aug 4;117(31):18459-18469. doi: 10.1073/pnas.2002792117. Epub 2020 Jul 21. 2020 | |
4 | MDN1 |
Structural Insights into Mdn1, an Essential AAA Protein Required for Ribosome Biogenesis. | |
Chen Z, Suzuki H, Kobayashi Y, Wang AC, DiMaio F, Kawashima SA, Walz T, Kapoor TM. | |
Cell. Oct 18;175(3):822-834.e18. doi: 10.1016/j.cell.2018.09.015. Epub 2018 Oct 11. 2018 | |
5 | MDN1, PELP1 |
The AAA ATPase MDN1 Acts as a SUMO-Targeted Regulator in Mammalian Pre-ribosome Remodeling. | |
Raman N, Weir E, Müller S. | |
Mol Cell. Nov 3;64(3):607-615. doi: 10.1016/j.molcel.2016.09.039 2016 | |
6 | MDN1 |
The AAA-ATPase Rea1 drives removal of biogenesis factors during multiple stages of 60S ribosome assembly | |
Bassler J, Kallas M, Pertschy B, Ulbrich C, Thoms M, Hurt E. | |
Mol Cell. Jun 11;38(5):712-21. doi: 10.1016/j.molcel.2010.05.024. 2010 | |
7 | MDN1 |
Mechanochemical removal of ribosome biogenesis factors from nascent 60S ribosomal subunits. | |
Ulbrich C, Diepholz M, Bassler J, Kressler D, Pertschy B, Galani K, Böttcher B, Hurt E. | |
Cell. Sep 4;138(5):911-22. doi: 10.1016/j.cell.2009.06.045 2009 | |
8 | MDN1 |
Expression and genomic analysis of midasin, a novel and highly conserved AAA protein distantly related to dynein. | |
Garbarino J, Gibbons I. | |
BMC Genomics 3(1):18. 2002 | |
9 | ADAMTS3, AKAP6, ALMS1, ANKRD28, AREL1, ARHGEF10, ARHGEF11, ARHGEF17, ARNT2, BAZ2A, CABIN1, CAST, CHD9, CIC, CLEC16A, CLOCK, CTNND1, DCLK1, DDX46, DIDO1, DNAH9, DNM3, DOCK3, DYNC1H1, ECM29, ENTPD4, EPB41L1, EZH1, FRMPD4, GCC2, HECW1, HERC2, HISPPD1, HUWE1, IGSF1, KAT6B, KHNYN, KIAA0319, KIAA0355, KIAA0379, KIF3B, KMT2B, LBA1, MADD, MAST4, MCF2L, MDN1, MTMR3, MYO6, N4BP3, NACAD, NRCAM, PCDH9, PCDHGA8, PCDHGC3, PDZD2, PER2, PFAS, PLEKHM1, PLXNB2, PRORP, PRUNE2, PTPRN2, RAPGEF2, RIMBP2, RIMS1, RIPOR2, RUSC2, SALL2, SEC16A, SEMA3C, SEMA3E, SETD1A, SFRS14, SNPH, SPECC1L, SPTBN2, SR140, SRCAP, SRRM2, SYNJ2, TECPR2, TLN2, TRIM66, TTC37, UBR2, WNK1, XPO6, ZBTB39, ZBTB5, ZFYVE16, ZFYVE26, ZMYM3, ZNF518A, ZNF609, ZNF629, ZNF646 |
Prediction of the coding sequences of unidentified human genes. VII. The complete sequences of 100 new cDNA clones from brain which can code for large proteins in vitro. | |
Nagase T, Ishikawa K, Nakajima D, Ohira M, Seki N, Miyajima N, Tanaka A,Kotani H, Nomura N, Ohara O. | |
DNA Res 4(2):141-50. 1997 | |