Before 2012

Chandramouli P, Hernandez-Lopez R, Wang HW, Leschziner AE*. (2011) Validation of the orthogonal tilt reconstruction method with a biological test sampleJ. Struct. Biol., 175:85-96

Liu XQ, Wang HW*. (2011) Single particle electron microscopy reconstruction of the exosome complex using the random conical tilt methodJ. Vis. Exp., doi: 10.3791/2574

Ramey VH, Wang HW, Nakajima Y, Wong A, Liu J, Drubin D, Barnes G, Nogales E*. (2011) The Dam1 ring binds to the E-hook of tubulin and diffuses along the microtubuleMol. Biol. Cell, 22:457-466

Wu X, Shen QT, Stokes N, Lu C, Zheng Q, Polak L, Wang HW, Fuchs E*. (2011) Skin stem cells orchestrate directional migration by regulating microtubule-ACF7 connections through GSK3βCell, 144:341-352

Yang H, Wang J, Jia X, McNatt M, Zang T, Pan B, Meng W, Wang HW, Bieniasz P, Xiong Y*. (2010) Structural insight into the mechanisms of enveloped virus tethering by TetherinProc. Natl. Acad. Sci. USA, 107:18428-18432

Nogales E*, Ramey VH, Wang HW. (2010) Cryo-EM studies of structural intermediates in microtubule dynamic instability and interaction of microtubules with kinetochore complexesMethods Cell Biol., 95:129-156 (Review; Book Chapter)

Wang HW*, Noland C, Siridechadilok B, Taylor DW, Ma E, Felderer K, Doudna JA*, Nogales E*. (2009) Structural basis for RNA processing by the human RISC-loading complexNat. Struct. Mol. Biol., 16:1148-1153

Wu Z, Wang HW, Mu W, Quyang Z, Nogales E, Xing J*. (2009) Simulations of tubulin sheet polymers as possible structural intermediates in microtubule assembly. PLoS One, 4:e7291

Ramey VH, Wang HW, Nogales E* (2009) Ab initio reconstruction of helical samples with heterogeneity, disorder and coexisting symmetriesJ. Struct. Biol., 167:97-105

Shen QT, Bai XC, Chang LF, Wu Y, Wang HW, Sui SF* (2009) Bowl-shaped oligomeric structures on membranes as DegP’s new functional forms in protein quality controlProc. Natl. Acad. Sci. USA, 106:4858-4863

Wang HW, Long S, Ciferri C, Westermann S, Drubin DG, Barnes G, Nogales E*. (2008) Architecture and flexibility of the yeast Ndc80 kinetochore complexJ. Mol. Biol., 383:894-903

Wang HW*, Wang J, Ding F, Callahan K, Bratkowski MA, Bulter JS, Nogales E, Ke A*. (2007) Architecture of the yeast Rrp44-exosome complex suggests routes of RNA recruitment for 3’-end processingProc. Natl. Acad. Sci. USA, 104:16844-16849

Wang HW, Ramey VH, Westermann S, Leschziner AE, Welburn JPI, Nakajima Y, Drubin DG, Barnes G, Nogales E*. (2007) Architecture of the Dam1 kinetochore ring complex and implications for microtubule-driven assembly and force-coupling mechanismsNat. Struct. Mol. Biol., 14:721-726

Nogales E*, Wang HW. (2006) Structural mechanisms underlying nucleotide-dependent self-assembly of tubulin and its relativesCurr. Opin. Struct. Biol., 16:221-229 (Review)

Nogales E*, Wang HW. (2006) Structural intermediates in microtubule assembly and disassembly: how and why? Curr. Opin. Cell Biol., 18:179-284 (Review)

Westermann S, Wang HW, Avila-Sakar A, Drubin DG, Nogales E, Barnes G*. (2006) The Dam1 kinetochore ring complex moves processively on depolymerizing microtubule endsNature, 440:565-563

Wang HW*, Long S, Finley KR, Nogales E. (2005) Assembly of GMPCPP-bound tubulin into helical ribbons and tubes and effect of colchicineCell Cycle, 4:1157-1160

Wang HW, Nogales E*. (2005) Nucleotide-dependent bending flexibility of tubulin regulates microtubule assemblyNature, 435:911-915

Westermann S, Avila-Sakar A, Wang HW, Niederstrasser H, Wong J, Drubin DG, Nogales E, Barnes G*. (2005) Formation of a dynamic kinetochore-microtubule interface through assembly of the Dam1 ring complexMol. Cell, 17:277-290

Wang HW, Nogales E*. (2005) An iterative Fourier-Bessel algorithm for reconstruction of helical structures with severe Bessel overlapJ. Struct. Biol., 149:65-78 (Cover)

Chen Y, Lu YJ, Wang HW, Yuan S, Chang Z, Sui SF*. (2003) Two-dimensional crystallization of a small heat shock protein HSP16.3 on lipid layerBiochem. Biophysic. Res. Commun., 310:360-366

Wu Y, Wang HW, Ji SR, Sui SF*. (2003) Two-dimensional crystallization of rabbit C-reactive protein monomeric subunitsActa. Crystallogr. D. Biol. Crystallogr.,59:922-926

Nogales E*, Wang HW, Niederstrasser H. (2003) Tubulin rings: which way do they curve?Curr. Opin. Struct. Biol., 13:256-261 (Review)

Wang HW, Chen Y, Yang H, Chen X, Duan MX, Tai PC*, Sui SF*. (2003) Ring-like pore structures of SecA: implication for bacteria protein-conducting channelsProc. Natl. Acad. Sci. USA, 100:4221-4226

Wu Y, Ji SR, Wang HW, Sui SF*. (2002) Study of the spontaneous dissociation of rabbit C-reactive proteinBiochemistry (Mosc.), 67:1377-1382

Wang HW, Wu Y, Chen Y, Sui SF*. (2002) Polymorphism of structural forms of C-reactive proteinInt. J. Mol. Med., 9:665-671

Wang HW, Sui SF*. (2001) Dissociation and subunit rearrangement of membrane-bound human C-reactive proteinBiochem. Biophysic. Res. Commun., 288:75-79

Wang HW, Sui SF*. (2001) Two-dimensional assembly of pentameric C-reactive proteins on lipid monolayersJ. Struct. Biol., 134:46-55

Wang HW, Lu YJ, Li LJ, Liu S, Wang DN, Sui SF*. (2000) Trimeric ring-like structure of ArsA ATPaseFEBS Lett., 496:105-110

Zhou H, Wang HW, Zhu K, Sui SF, Xu P, Yang SF, Li N*. (1999) The multiple roles of conserved arginine 286 of 1-aminocyclopropane-1-carboxylate synthase. Coenzyme binding, substrate binding, and beyond. Plant Physiol., 121:913-919

Wang HW, Sui SF*. (1999) Pentameric two-dimensional crystallization of rabbit C-reactive protein on lipid monolayersJ. Struct. Biol., 127:283-286

Mi LZ, Wang HW, Sui SF*. (1997) Interaction of Rabbit C-Reactive Protein with Phospholipid Monolayers Studied by Micro- fluorescence Film Balance with an Externally Applied Electric FieldBiophys. J., 73:446-451