| 131 - 144 |
Modulation of calcium oxalate dihydrate growth by phosphorylated osteopontin peptides
Chien YC, Mansouri A, Jiang W, Khan SR, Gray JJ, Mckee MD |
| 145 - 150 |
Crystal structure of saposin D in an open conformation
Gebai A, Gorelik A, Nagar B |
| 151 - 164 |
Contributions of different modules of the plasminogen-binding Streptococcus pyogenes M-protein that mediate its functional dimerization
Qiu CJ, Yuan Y, Zajicek J, Liang Z, Balsara RD, Brito-Robionson T, Lee SW, Ploplis VA, Castellino FJ |
| 165 - 171 |
Conformational plasticity of the response regulator CpxR, a key player in Gammaproteobacteria virulence and drug-resistance
Mechaly AE, Haouz A, Sassoon N, Buschiazzo A, Betton JM, Alzari PM |
| 172 - 181 |
Rapid near-atomic resolution single-particle 3D reconstruction with SIMPLE
Reboul CF, Kiesewetter S, Eager M, Belousoff M, Cui TG, De Sterck H, Elmlund D, Elmlund H |
| 182 - 190 |
3D micro structural analysis of human cortical bone in paired femoral diaphysis, femoral neck and radial diaphysis
Gauthier R, Langer M, Follet H, Olivier C, Gouttenoire PJ, Helfen L, Rongieras F, Mitton D, Peyrin F |
| 191 - 198 |
The 3-D structure of VNG0258H/RosR - A haloarchaeal DNA-binding protein in its ionic shell
Kutnowski N, Shmuely H, Dahan I, Shmulevich F, Davidov G, Shahar A, Eichler J, Zarivach R, Shaanan B |
| 199 - 206 |
Conformational flexibility of pore loop-1 gives insights into substrate translocation by the AAA(+) protease FtsH
Uthoff M, Baumann U |
| 207 - 214 |
Structural behavior of keratin-associated protein 8.1 in human hair as revealed by a monoclonal antibody
Akiba H, Ikeuchi E, Ganbat J, Fujikawa H, Arai-Kusano O, Iwanari H, Nakakido M, Hamakubo T, Shimomura Y, Tsumoto K |
| 215 - 227 |
APPLE picker: Automatic particle picking, a low-effort cryo-EM framework
Heimowitz A, Anden J, Singer A |
| 228 - 239 |
The analysis of subtle internal communications through mutation studies in periplasmic metal uptake protein CLas-ZnuA2
Saini G, Sharma N, Dalal V, Warghane A, Ghosh DK, Kumar P, Sharma AK |
| 240 - 249 |
Structural and functional analyses of calcium ion response factors in the mantle of Pinctada fucata
Matsuura A, Yoshimura K, Kintsu H, Atsumi T, Tsuchihashi Y, Takeuchi T, Satoh N, Negishi L, Sakuda S, Asakura T, Imura Y, Yoshimura E, Suzuki M |
| 250 - 260 |
Flexibility of the Sec13/31 cage is influenced by the Sec31 C-terminal disordered domain
Paraan M, Bhattacharya N, Uversky VN, Stagg SM |
| 261 - 269 |
Structural flexibility in the Helicobacter pylori peptidyl-prolyl cis,trans-isomerase HP0175 is achieved through an extension of the chaperone helices
Yaseen A, Audette GF |
| 270 - 275 |
High resolution single particle cryo-electron microscopy using beam-image shift
Cheng AC, Eng ET, Alink L, Rice WJ, Jordan KD, Kim LY, Potter CS, Carragher B |
| 276 - 282 |
Assessing the quality of single particle reconstructions by atomic model building
Mendez JH, Stagg SM |
| 283 - 290 |
New software tools in EMAN2 inspired by EMDatabank map challenge
Bell JM, Chen MY, Durmaz T, Fluty AC, Ludtke SJ |
| 291 - 300 |
The first single particle analysis Map Challenge: A summary of the assessments
Heymann JB, Marabini R, Kazemi M, Sorzano COS, Holmdahl M, Mendez JH, Stagg SM, Jonic S, Palovcak E, Armache JP, Zhao JH, Cheng YF, Pintilie G, Chiu W, Patwardhan A, Carazo JM |
| 301 - 312 |
Assessment of detailed conformations suggests strategies for improving cryoEM models: Helix at lower resolution, ensembles, pre-refinement fixups, and validation at multi-residue length scale
Richardson JS, Williams CJ, Videau LL, Chen VB, Richardson DC |
| 313 - 318 |
Building atomic models based on near atomic resolution cryoEM maps with existing tools
Yu I, Nguyen L, Avaylon J, Wang K, Lai M, Zhou ZH |
| 319 - 328 |
Constructing atomic structural models into cryo-EM densities using molecular dynamics - Pros and cons
Wang Y, Shekhar M, Thifault D, Williams CJ, McGreevy R, Richardson J, Singharoy A, Tajkhorshid E |
| 329 - 337 |
A new algorithm for high-resolution reconstruction of single particles by electron microscopy
Sorzano COS, Vargas J, de la Rosa-Trevin JM, Jimenez A, Maluenda D, Melero R, Martinez M, Ramirez-Aportela E, Conesa P, Vilas JL, Marabini R, Carazo JM |
| 338 - 343 |
Map segmentation, automated model-building and their application to the Cryo-EM Model Challenge
Terwilliger TC, Adams PD, Afonine PV, Sobolev OV |
| 344 - 350 |
A methodology using Gaussian-based density map approximation to assess sets of cryo-electron microscopy density maps
Jonic S |
| 351 - 359 |
De novo main-chain modeling with MAINMAST in 2015/2016 EM Model Challenge
Terashi G, Kihara D |
| 360 - 367 |
Map Challenge assessment: Fair comparison of single particle cryoEM reconstructions
Heymann JB |
