Structure and conformational variability of the Mycobacterium tuberculosis fatty acid synthase multienzyme complex
by single particle reconstruction, at 20.0 A resolution, submitted on 2013-04-18
Ciccarelli L, Connell SR, Enderle M, Mills DJ, Vonck J, Grininger M

Structure and conformational variability of the Mycobacterium tuberculosis fatty acid synthase multienzyme complex
by single particle reconstruction, at 20.0 A resolution, submitted on 2013-04-18
Ciccarelli L, Connell SR, Enderle M, Mills DJ, Vonck J, Grininger M

Structure and conformational variability of the Mycobacterium tuberculosis fatty acid synthase multienzyme complex
by single particle reconstruction, at 17.5 A resolution, submitted on 2013-04-18
Ciccarelli L, Connell SR, Enderle M, Mills DJ, Vonck J, Grininger M

Structure and conformational variability of the Mycobacterium tuberculosis fatty acid synthase multienzyme complex
by single particle reconstruction, at 17.5 A resolution, submitted on 2013-04-18
Ciccarelli L, Connell SR, Enderle M, Mills DJ, Vonck J, Grininger M

Visualizing GroEL-ES in the Act of Encapsulating a Non-Native Substrate Protein
by single particle reconstruction, at 8.9 A resolution, submitted on 2013-03-04
Chen DH, Madan D, Weaver J, Lin Z, Schroder GF, Chiu W, Rye HS

Visualizing GroEL-ES in the Act of Encapsulating a Non-Native Substrate Protein
by single particle reconstruction, at 9.2 A resolution, submitted on 2013-03-04
Chen DH, Madan D, Weaver J, Lin Z, Schroder GF, Chiu W, Rye HS

Visualizing GroEL-ES in the Act of Encapsulating a Non-Native Substrate Protein
by single particle reconstruction, at 15.9 A resolution, submitted on 2013-03-04
Chen DH, Madan D, Weaver J, Lin Z, Schroder GF, Chiu W, Rye HS

Tetracycline resistance protein Tet(O) bound to the ribosome
by single particle reconstruction, at 9.8 A resolution, submitted on 2013-02-26
Li W, Atkinson GC, Thakor NS, Allas U, Lu C, Chan KY, Tenson T, Schulten K, Wilson KS, Hauryliuk V, Frank J

Tetracycline resistance protein Tet(O) bound to the ribosome
by single particle reconstruction, at 9.8 A resolution, submitted on 2013-02-25
Li W, Atkinson GC, Thakor NS, Allas U, Lu C, Chan KY, Tenson T, Schulten K, Wilson KS, Hauryliuk V, Frank J

Structural Basis of Signal Sequence Surveillance and Selection by the SRP-SR Complex
by single particle reconstruction, at 12.0 A resolution, submitted on 2013-02-13
von Loeffelholz O, Knoops K, Ariosa A, Zhang X, Karuppasamy M, Huard K, Schoehn G, Berger I, Shan SO, Schaffitzel C

The structure of ''breathing'' dengue virus.
by single particle reconstruction, at 13.7 A resolution, submitted on 2013-01-24
Fibriansah G, Ng TS, Kostyuchenko VA, Lee S, Wang J, Lok SM

High-resolution cryo-electron microscopy structure of the Trypanosoma brucei ribosome
by single particle reconstruction, at 5.57 A resolution, submitted on 2012-12-10
Hashem Y, des Georges A, Fu J, Buss SN, Jossinet F, Jobe A, Zhang Q, Liao HY, Grassucci RA, Bajaj C, Westhof E, Madison-Antenucci S, Frank J

High-resolution cryo-electron microscopy structure of the Trypanosoma brucei ribosome
by single particle reconstruction, at 5.57 A resolution, submitted on 2012-12-09
Hashem Y, des Georges A, Fu J, Buss SN, Jossinet F, Jobe A, Zhang Q, Liao HY, Grassucci RA, Bajaj C, Westhof E, Madison-Antenucci S, Frank J

cryo-electron microscopy structure of the Trypanosoma brucei 80S ribosome
by single particle reconstruction, at 5.57 A resolution, submitted on 2012-12-08
Hashem Y, des Georges A, Fu J, Buss SN, Jossinet F, Jobe A, Zhang Q, Liao HY, Grassucci RA, Bajaj C, Westhof E, Madison-Antenucci S, Frank J

High-resolution cryo-electron microscopy structure of the Trypanosoma brucei ribosome
by single particle reconstruction, at 5.57 A resolution, submitted on 2012-12-07
Hashem Y, des Georges A, Fu J, Buss SN, Jossinet F, Jobe A, Zhang Q, Liao HY, Grassucci RA, Bajaj C, Westhof E, Madison-Antenucci S, Frank J

Promiscuous behavior of proteins in archaeal ribosomes revealed by cryo-EM: implications for evolution of eukaryotic ribosomes (50S ribosomal RNA)
by single particle reconstruction, at 6.6 A resolution, submitted on 2012-10-25
Armache JP, Anger AM, Marquez V, Frankenberg S, Froehlich T, Villa E, Berninghausen O, Thomm M, Arnold GJ, Beckmann R, Wilson DN

Cryo-EM structure of the mammalian eRF1-eRF3-associated termination complex
by single particle reconstruction, at 17.0 A resolution, submitted on 2012-10-10
Taylor D, Unbehaun A, Li W, Das S, Lei J, Liao HY, Grassucci RA, Pestova TV, Frank J

Organization of the Influenza Virus Replication Machinery
by helical reconstruction, at 20.0 A resolution, submitted on 2012-10-09
Moeller A, Kirchdoerfer RN, Potter CS, Carragher B, Wilson IA

Dissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimM
by single particle reconstruction, at 12.9 A resolution, submitted on 2012-09-28
Guo Q, Goto S, Chen Y, Muto A, Himeno H, Deng H, Lei J, Gao N

Dissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimM
by single particle reconstruction, at 14.0 A resolution, submitted on 2012-09-28
Guo Q, Goto S, Chen Y, Muto A, Himeno H, Deng H, Lei J, Gao N

Dissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimM
by single particle reconstruction, at 13.1 A resolution, submitted on 2012-09-28
Guo Q, Goto S, Chen Y, Muto A, Himeno H, Deng H, Lei J, Gao N

Dissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimM
by single particle reconstruction, at 13.6 A resolution, submitted on 2012-09-28
Guo Q, Goto S, Chen Y, Muto A, Himeno H, Deng H, Lei J, Gao N

Dissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimM
by single particle reconstruction, at 13.2 A resolution, submitted on 2012-09-28
Guo Q, Goto S, Chen Y, Muto A, Himeno H, Deng H, Lei J, Gao N

Dissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimM
by single particle reconstruction, at 18.7 A resolution, submitted on 2012-09-28
Guo Q, Goto S, Chen Y, Muto A, Himeno H, Deng H, Lei J, Gao N

Dissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimM
by single particle reconstruction, at 15.3 A resolution, submitted on 2012-09-28
Guo Q, Goto S, Chen Y, Muto A, Himeno H, Deng H, Lei J, Gao N

Dissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimM
by single particle reconstruction, at 17.6 A resolution, submitted on 2012-09-28
Guo Q, Goto S, Chen Y, Muto A, Himeno H, Deng H, Lei J, Gao N

Dissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimM
by single particle reconstruction, at 16.5 A resolution, submitted on 2012-09-28
Guo Q, Goto S, Chen Y, Muto A, Himeno H, Deng H, Lei J, Gao N

Dissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimM
by single particle reconstruction, at 18.8 A resolution, submitted on 2012-09-28
Guo Q, Goto S, Chen Y, Muto A, Himeno H, Deng H, Lei J, Gao N

Promiscuous behavior of proteins in archaeal ribosomes revealed by cryo-EM: implications for evolution of eukaryotic ribosomes (30S ribosomal subunit)
by single particle reconstruction, at 6.6 A resolution, submitted on 2012-08-09
Armache JP, Anger AM, Marquez V, Frankenberg S, Froehlich T, Villa E, Berninghausen O, Thomm M, Arnold GJ, Beckmann R, Wilson DN

Promiscuous behavior of proteins in archaeal ribosomes revealed by cryo-EM: implications for evolution of eukaryotic ribosomes (50S ribosomal proteins)
by single particle reconstruction, at 6.6 A resolution, submitted on 2012-08-09
Armache JP, Anger AM, Marquez V, Frankenberg S, Froehlich T, Villa E, Berninghausen O, Thomm M, Arnold GJ, Beckmann R, Wilson DN

Near-atomic resolution structural model of the yeast 26S proteasome
by single particle reconstruction, at 7.4 A resolution, submitted on 2012-08-01
Beck F, Unverdorben P, Bohn S, Schweitzer A, Pfeifer G, Sakata E, Nickell S, Plitzko JM, Villa E, Baumeister W, Forster F

Inward-Facing Conformation of the Zinc Transporter YiiP revealed by Cryo-electron Microscopy
by helical reconstruction, at 13.0 A resolution, submitted on 2012-07-24
Coudray N, Valvo S, Hu M, Lasala R, Kim C, Vink M, Zhou M, Provasi D, Filizola M, Tao J, Fang J, Penczek PA, Ubarretxena-Belandia I, Stokes DL, Transcontinental EM Initiative for Membrane Protein Structure (TEMIMPS)

High affinity dynein microtubule binding domain - tubulin complex
by helical reconstruction, at 9.7 A resolution, submitted on 2012-06-25
Redwine WB, Hernandez-Lopez R, Zou S, Huang J, Reck-Peterson SL, Leschziner AE

Low affinity dynein microtubule binding domain - tubulin complex
by helical reconstruction, at 9.7 A resolution, submitted on 2012-06-25
Redwine WB, Hernandez-Lopez R, Zou S, Huang J, Reck-Peterson SL, Leschziner AE

Single particle electron microscopy of PilQ dodecameric complexes from Neisseria meningitidis.
by single particle reconstruction, at 26.0 A resolution, submitted on 2012-05-23
Berry JL, Phelan MM, Collins RF, Adomavicius T, Tonjum T, Frye SA, Bird L, Owens R, Ford RC, Lian LY, Derrick JP

Rigor kinesin motor domain with an ordered neck-linker, docked on tubulin dimer, modelled into the 8A cryo-EM map of doublecortin- microtubules decorated with kinesin
by single particle reconstruction, at 8.2 A resolution, submitted on 2012-05-10
Liu JS, Schubert CR, Fu X, Fourniol FJ, Jaiswal JK, Houdusse A, Stultz CM, Moores CA, Walsh CA

Human doublecortin N-DC repeat plus linker, and tubulin (2XRP) docked into an 8A cryo-EM map of doublecortin-stabilised microtubules reconstructed in absence of kinesin
by single particle reconstruction, at 8.3 A resolution, submitted on 2012-05-09
Liu JS, Schubert CR, Fu X, Fourniol FJ, Jaiswal JK, Houdusse A, Stultz CM, Moores CA, Walsh CA

Model of human kinesin-5 motor domain (3HQD) and mammalian tubulin heterodimer (1JFF) docked into the 9.7-angstrom cryo-EM map of microtubule-bound kinesin-5 motor domain in the AMPPPNP state.
by single particle reconstruction, at 9.7 A resolution, submitted on 2012-04-19
Goulet A, Behnke-Parks WM, Sindelar CV, Rosenfeld SS, Moores CA

Model of human kinesin-5 motor domain (1II6, 3HQD) and mammalian tubulin heterodimer (1JFF) docked into the 9.5-angstrom cryo-EM map of microtubule-bound kinesin-5 motor domain in the rigor state.
by single particle reconstruction, at 9.5 A resolution, submitted on 2012-04-19
Goulet A, Behnke-Parks WM, Sindelar CV, Rosenfeld SS, Moores CA

Capsid structure and its Stability at the Late Stages of Bacteriophage SPP1 Assembly
by single particle reconstruction, at 8.8 A resolution, submitted on 2012-03-15
White HE, Sherman MB, Brasiles S, Jacquet E, Seavers P, Tavares P, Orlova EV

Human dynamin 1 deltaPRD polymer stabilized with GMPPCP
by helical reconstruction, at 12.2 A resolution, submitted on 2011-08-24
Chappie JS, Mears JA, Fang S, Leonard M, Schmid SL, Milligan RA, Hinshaw JE, Dyda F

MODEL OF HEXAMERIC AAA DOMAIN ARRANGEMENT OF GREEN-TYPE RUBISCO ACTIVASE FROM TOBACCO.
by single particle reconstruction, at 20.0 A resolution, submitted on 2011-07-28
Stotz M, Mueller-Cajar O, Ciniawsky S, Wendler P, Hartl FU, Bracher A, Hayer-Hartl M

Models of E1, E2 and CP of Venezuelan Equine Encephalitis Virus TC-83 strain restrained by a near atomic resolution cryo-EM map
by single particle (icosahedral) reconstruction, at 4.8 A resolution, submitted on 2011-06-22
Zhang R, Hryc CF, Cong Y, Liu X, Jakana J, Gorchakov R, Baker ML, Weaver SC, Chiu W

Molecular architectures of the 24meric eye lens chaperone alphaB- crystallin elucidated by a triple hybrid approach
by single particle reconstruction, at 9.4 A resolution, submitted on 2011-04-13
Braun N, Zacharias M, Peschek J, Kastenmueller A, Zou J, Hanzlik M, Haslbeck M, Rappsilber J, Buchner J, Weinkauf S

Three-dimensional structure of Dengue virus serotype 1 complexed with HMAb 14c10 Fab
by single particle (icosahedral) reconstruction, at 7.0 A resolution, submitted on 2011-04-01
Teoh EP, Kukkaro P, Teo EW, Lim A, Tan TT, Shi PY, Yip A, Schul W, Leo YS, Chan SH, Smith KGC, Ooi EE, Kemeny DM, Ng G, Ng ML, Alonso S, Fisher D, Hanson B, Lok SM, MacAry PA

Modeling Barmah Forest virus structural proteins
by single particle reconstruction, at 5.0 A resolution, submitted on 2011-03-31
Kostyuchenko VA, Jakana J, Liu X, Haddow AD, Aung M, Weaver SC, Chiu W, Lok SM

Structure of the ribosome-SecYE complex in the membrane environment
by single particle reconstruction, at 7.1 A resolution, submitted on 2011-02-08
Frauenfeld J, Gumbart J, van der Sluis EO, Funes S, Gartmann M, Beatrix B, Mielke T, Berninghausen O, Becker T, Schulten K, Beckmann R

Structure of the ribosome-SecYE complex in the membrane environment
by single particle reconstruction, at 7.1 A resolution, submitted on 2011-02-08
Frauenfeld J, Gumbart J, van der Sluis EO, Funes S, Gartmann M, Beatrix B, Mielke T, Berninghausen O, Becker T, Schulten K, Beckmann R

Models for ribosome components that are nearest neighbors to the bovine mitochondrial initiation factor2 bound to the E. Coli ribosome
by single particle reconstruction, at 10.8 A resolution, submitted on 2011-01-20
Yassin AS, Haque E, Datta PP, Elmore K, Banavali NK, Spremulli LL, Agrawal RK

Mammalian mitochondrial translation initiation factor 2
by single particle reconstruction, at 10.8 A resolution, submitted on 2011-01-19
Yassin AS, Haque E, Datta PP, Elmore K, Banavali NK, Spremulli LL, Agrawal RK