Statistical shape modelling of the thoracic spine for the development of pedicle screw insertion guides

Spinal fixation and fusion are surgical procedures undertaken to restore stability in the spine and restrict painful or degenerative motion. Malpositioning of pedicle screws during these procedures can result in major neurological and vascular damage. Patient-specific surgical guides offer clear benefits, reducing malposition rates by up to 25%. However, they suffer from long lead times and the manufacturing process is dependent on third-party specialists. The development of a standard set of surgical guides may eliminate the issues with the manufacturing process. To evaluate the feasibility of this option, a statistical shape model (SSM) was created and used to analyse the morphological variations of the T4–T6 vertebrae in a population of 90 specimens from the Visible Korean Human dataset (50 females and 40 males). The first three principal components, representing 39.7% of the variance within the population, were analysed. The model showed high variability in the transverse process (~ 4 mm) and spinous process (~ 4 mm) and relatively low variation (< 1 mm) in the vertebral lamina. For a Korean population, a standardised set of surgical guides would likely need to align with the lamina where the variance in the population is lower. It is recommended that this standard set of surgical guides should accommodate pedicle screw diameters of 3.5–6 mm and transverse pedicle screw angles of 3.5°–12.4°.

     

1H, 15N and 13C resonance assignments and secondary structure determination of the RNA-binding domain of E. coli rho protein

Summary Protein fragments containing the RNA-binding domain of Escherichia coli rho protein have been over-expressed in E. coli. NMR spectra of the fragment containing residues 1–116 of rho protein (Rho116) show that a region of this protein is unfolded in solution. Addition of (dC)₁₀ to this fragment stabilizes the folded form of the protein. The fragment comprising residues 1–130 of rho protein (Rho130) is found to be stably folded, both in the absence and presence of nucleic acid. NMR studies of the complex of Rho 130 with RNA and DNA oligonucleotides indicate that the binding-site size, affinity, and specificity of Rho 130 are similar to those of intact rho protein; therefore, Rho 130 is a suitable model of the RNA-binding domain of rho protein. NMR line widths as well as titration experiments of Rho130 complexed with oligonucleotides of various lengths suggest that Rho130 forms oligomers in the presence of longer oligonucleotides. ¹H, ¹⁵N and ¹³C resonance assignments were facilitated by the utilization of two pulse sequences, CN-NOESY and CCH-TOCSY. The secondary structure of unliganded Rho130 has been determined by NMR techniques, and it is clear that the RNA-binding domain of rho is more structurally similar to the cold shock domain than to the RNA recognition motif.Abbreviations Rho116, Rho130 protein containing the first 116 (130) residues of rho - CSD cold shock domain - RRM RNA recognition motif - RBD RNA-binding domain - IPTG isopropyl -D-thiogalactopyranoside - EDTA ethylenediaminetetraacetic acid - NOE nuclear Overhauser enhancement     

Morphogenetic movements during axolotl neural tube formation tracked by digital imaging

During neurulation in vertebrate embryos, epithelial cells of the neural plate undergo complex morphogenetic movements that culminate in rolling of the plate into a tube. Resolution of the determinants of this process requires an understanding of the precise movements of cells within the epithelial sheet. A computer algorithm that allows automated tracking of epithelial cells visible in digitized video images is presented. It is used to quantify the displacement field associated with morphogenetic movements in the axolotl (Ambystoma mexicanum) neural plate during normal neural tube formation. Movements from lateral to medial, axial elongations and area changes are calculated from the displacement field data and plotted as functions of time. Regional and temporal differences are identified. The approach presented is suitable for analyzing a wide variety of morphogenetic movements.     

Bacterial cytochromes P-450

The cytochromes P-450 (P-450s) constitute an extremely large family ('superfamily') of haemoproteins that catalyse the oxidation of a wide range of physiological and non-physiological compounds. A remarkable feature of the P-450s is the manipulation of the same basic structure and chemistry to achieve an enormous range of functions in organisms as diverse as bacteria and man. Indeed, the P-450s have been described as ‘the most versatile biological catalyst known’. Much research is focussed on mammalian P-450s, with their roles in such processes as steroid transformations and the metabolism of carcinogens and other xenobiotics. However, our knowledge of the structure and function of the P-450s has been advanced by analysis of a limited number of its bacterial members, primarily P-450cam from Pseudomonas putida. Four P-450 structures have been solved to date, all of which are from bacterial sources. The aim of this review is to assess current knowledge of the many bacterial P-450s, with emphasis on their diverse biological roles and on the advances in our knowledge of this extremely important enzyme class, which have been made feasible through their study.     

SEQUENCES OF THE RRN18 GENES OF CHLAMYDOMONAS HUMICOLA AND C. DYSOSMOS ARE IDENTICAL,IN AGREEMENT WITH THEIR COMBINATION IN THE SPECIES C. APPLANATA (CHLOROPHYTA)1

The nuclear Rrn18 gene coding for small-subunit ribosomal RNA was amplified from Chlamydomonas humicola and C. dysosmos. The sequences were identical, in agreement with the combination of these two species under the name C. applanata on morphological and physiological grounds by Ettl and Schlösser (1992).     

Radiative properties of hardwood leaves to ultraviolet irradiation

Spectral reflectance and transmittance of leaves to ultraviolet irradiation were determined under laboratory conditions for seven species of hardwood trees, namely red oak (Quercus rubra, L), black oak (Q. velutina, Lamarch), white oak (Q. alba, L.), sugar maple (Acer saccharum), Norway maple (A. plantanoides), hickory (Carya tomemtosa), sweetgum (Liquidambar styraciflua), and black oak litter. The experimental system consisted of a solar simulator, an integrating sphere, and a spectroradiometer. Experiments were repeated three to five times for both adaxial and abaxial surfaces of fresh leaves chosen at randomly. The spectral distributions and simple averages of the radiative properties in the wavelength ranges of ultraviolet-B (UV-B, 280–320 nm) and ultraviolet-A (UV-A, 320–400 nm) were determined. The spectral distributions of reflectance were similar between adaxial and abaxial surfaces, although the magnitude varied among tree species. Leaf reflectance was very low for the ultraviolet spectrum in general and varied among species and between adaxial and abaxial surfaces. It was generally higher over the UV-A waveband compared to UV-B, and higher on the abaxial than adaxial surface. The broadband reflectance in the UV-A range (over all species) was 5.0 and 3.9% for abaxial and adaxial surface, respectively, compared to 3.5 and 2.8% in UV-B. The transmittance through leaves was extremely small in the UV-B (<0.1%) and nearly zero in the UV-A spectral range. Consequently, the absorptance of ultraviolet radiation by leaves, as determined from the measured reflectance and transmittance, was quite high, being more than 90% for all the combinations of species and wavebands examined. The reported results are useful for studies requiring spectral radiative properties of the examined leaves with respect to ultraviolet irradiation.     

The role of sucrose synthase in the response of soybean nodules to drought

Experiments were carried out to investigate the effects of droughtstress on enzymatic activities related to carbon and nitrogenmetabolism in soybean nodules. Gradual drought stress, imposedby withholding water nutrients, resulted in declines in thewater potential of leaves and nodules consistent with a significantdecline in N2 fixation. However, the amounts of nitrogenasecomponents 1 and 2 were virtually unaffected by drought stress.Similarly, no significant changes could be detected in aspartateaminotransferase, phosphoenolpyruvate carboxylase, glutaminesynthetase or alkaline invertase activities throughout the experiment.In contrast, sucrose synthase (SS), one of the enzymes involvedin sucrose metabolism in legume nodules, declined dramaticallyin activity and in content within a few days of withholdingwater. Coincident with this decline in SS activity were significantincreases in the nodule contents of sucrose, total free aminoacids and ureides. The amounts of proline, however, did notincrease until some days later. It is suggested that SS mayplay a key role in the regulation of nodule carbon metabolismand, therefore, of nitrogen fixation under drought stress conditions. Key words: Glycine max, soybean, nodule metabolism, drought stress, sucrose synthase