1 The high resolution obtained for an oxidized
orthorhombic crystal (
0.97 A) revealed several flexible
2 It is argued that the two-dimensional
orthorhombic crystals are induced by hydrogen bonding be
3 ee-dimensional structure was determined from
orthorhombic crystals at a resolution of 2.3 A.
4 pendent polymorphism, forming monoclinic and
orthorhombic crystals at low concentrations and amyloid
5 ructure of the native enzyme determined from
orthorhombic crystals confirms that it is a member of th
6 n-crystallographic 10-fold relationship, and
orthorhombic crystals contained a monomer in the asymmet
7 The
orthorhombic crystals diffract to 2.4 A, with dimer symm
8 Similarly, the monoclinic and
orthorhombic crystals exhibit chemical shifts that diffe
9 This new
orthorhombic crystal form (space group P21212) comprises
10 ure of deoxygenated lamprey hemoglobin in an
orthorhombic crystal form along with the structure of th
11 ovided for the lack of ligand binding to the
orthorhombic crystal form also obtained at pH 7.5.
12 formation of isocitrate dehydrogenase in the
orthorhombic crystal form more closely resembles that of
13 The new,
orthorhombic crystal form of isocitrate dehydrogenase is
14 Here we report a novel
orthorhombic crystal form of NK1 at 2.5 A resolution in
15 The packing of the receptors in the
orthorhombic crystal form offers an intriguing model for
16 was determined from both a hexagonal and an
orthorhombic crystal form to resolutions of 2.5A and 2.3
17 ed as Y34Fhex, and to 2.2 A resolution in an
orthorhombic crystal form, denoted as Y34Fortho.
18 by molecular replacement to 1.9 A using the
orthorhombic crystal form.
19 e active site structure seen in the previous
orthorhombic crystal of LmGAPDH.
20 t fission (SF) are studied in monoclinic and
orthorhombic crystals of 1,6-diphenyl-1,3,5-hexatriene.
21 Polarized absorption spectra of
orthorhombic crystals of wild-type green fluorescent pro
22 A 2D
orthorhombic crystal phase melted to a 2D smectic phase
23 The reduced
orthorhombic crystal structure (1.02 A) revealed subtle
24 s two key aspects of the previously reported
orthorhombic crystal structure of L. mexicana GAPDH (LmG
25 We prove that nodes are a consequence of the
orthorhombic crystal structure.
26 c space group, and compared with the earlier
orthorhombic crystal structure.
27 Orthorhombic crystal structured V2O5 with an oxidation s
28 ed to diffract beyond approximately 6 A, and
orthorhombic crystals that diffracted to 2.5 A.