Stories of hope created together: A pilot, school-based workshop for sharing eco-emotions and creating an actively hopeful vision of the future.

The climate and ecological crises challenge all communities across the world, with the greatest impact upon the most vulnerable and the youngest. There are multiple impacts on mental health, including the psychological burdens that arise with increasing awareness of the loss, threat and injustice caused by these crises. Large numbers of young people globally are understandably concerned and distressed about these crises, whilst simultaneously reporting that their concerns are regularly dismissed and ignored, particularly by those in power.

Engineering nanoscale order into a designed protein fiber.

We have established a designed system comprising two peptides that coassemble to form long, thickened protein fibers in water. This system can be rationally engineered to alter fiber assembly, stability, and morphology. Here, we show that rational mutations to our original peptide designs lead to structures with a remarkable level of order on the nanoscale that mimics certain natural fibrous assemblies.

Investigation of glass-ionomer cements using differential scanning calorimetry.

Six commercial glass-ionomer cements commonly used for various dental applications have been investigated using differential scanning calorimetry (DSC). The heat-flow behaviour and heat capacity of the cements were measured during isothermal (at 37 degrees C) setting reactions. The DSC results show that all materials undergo an exothermic setting process, but with different enthalpies of reactions and different heat capacities; there are no remaining endo- or exothermic reactions after the setting of the cement.

Structure and texture of fibrous crystals formed by Alzheimer's abeta(11-25) peptide fragment.

Amyloid fibril deposition is central to the pathology of Alzheimer's disease. X-ray diffraction from amyloid fibrils formed from full-length Abeta(1-40) and from a shorter fragment, Abeta(11-25), have revealed cross-beta diffraction fingerprints. Magnetic alignment of Abeta(11-25) amyloid fibrils gave a distinctive X-ray diffraction texture, allowing interpretation of the diffraction data and a model of the arrangement of the peptides within the amyloid fiber specimen to be constructed.

Effect of local sequence inversions on the crystalline antiparallel beta-sheet lamellar structures of periodic polypeptides: implications for chain-folding.

The crystal structure and texture of the monodisperse periodic polypeptide [(AG)3EG(GA)3EG]10 (poly(+/-AG)3EG: A=alanine, G=glycine, E=glutamic acid) were analyzed by X-ray diffraction, Fourier transform infrared spectroscopy, and electron microscopy. Structure determination was aided by comparison with the recently described structure for the related periodic polypeptide [(AG)3EG]36 by Krejchi et al. (Macromolecules 1997;30:5012).

Structures of Monodisperse Nylon 6 Oligoamides. Onset of Chain-folding.

Crystals were grown of the 5-amide, 9-amide, and 17-amide nylon 6 monodisperse oligoamides and investigated using electron microscopy (real space and diffraction) and X-ray diffraction. Analyses of the data allowed us to determine the crystalline structures and relate them to the morphology. Under our crystallization conditions, the 5-amide chains are unfolded and crystallize in the usual nylon 6 alpha-structure, i.

Effects of amino acid side-chain volume on chain packing in genetically engineered periodic polypeptides.

The fidelity of bacterial protein synthesis allows the production of architecturally well-defined polymeric materials through precise control of chain length, sequence, stereochemistry, and interchain interactions. In the present paper, we examine the relation between amino acid residue volume and crystalline unit cell dimensions, in a set of periodic protein polymers of repeating unit sequence -(AlaGly)3-X-Gly-, where X is Asn, Phe, Ser, Val, or Tyr. The proteins were overexpressed in Escherichia coli, purified by simple procedures based on acid/ethanol precipitation or insolubility in aqueous sodium dodecyl sulfate, and processed to form oriented crystalline mats by precipitation from formic acid under mechanical shear.

Chemical sequence control of beta-sheet assembly in macromolecular crystals of periodic polypeptides.

A family of uniform periodic polypeptides has been prepared by bacterial expression of the corresponding artificial genes, with the objective of exploring the potential for control of supramolecular organization in genetically engineered protein-based polymeric materials. The repeating units of the polypeptides consist of oligomeric alanyl-glycine sequences interspersed with glutamic acid residues inserted at intervals of 8 to 14 amino acids. Crystallization of such materials from formic acid produces beta-sheet structures in the solid state, as shown by vibrational spectroscopy, nuclear magnetic resonance spectroscopy, and wide-angle x-ray diffraction.

Elongational flow studies on type IV collagen: comparison with type I.

Elongation flow techniques have been used to investigate the birefringent response of monodisperse type IV collagen in dilute solution and the results compared with type I collagen. A four-roll mill apparatus was used to characterize the solutions at low strain rates, epsilon < or = 300 s-1. The birefringence is nonlocalized and rises gradually to a plateau value, in accordance with rigid-rod behavior.

Molecular bending and networks in a basement membrane-like collagen: packing in dogfish egg capsule collagen.

Low-angle X-ray diffraction data have been obtained from three mutually perpendicular axes through sheets of the collagenous egg capsule of the dogfish Scyliorhinus caniculus, a collagen that resembles type IV collagen. The data are interpreted in the light of the body of knowledge of the structure derived from transmission electron microscopy by Knight and Hunt. A model to account for the X-ray data is proposed incorporating the main dimensions of the Knight and Hunt model which are confirmed by the diffraction data.

Elongational flow studies on DNA in aqueous solution and stress-induced scission of the double helix.

Elongational flow techniques are used to investigate the birefringent response and flow-induced molecular scission of monodisperse phage-DNA samples in aqueous solution. A 4-roll mill apparatus was used to characterize the solutions at low stain rates, epsilon less than or equal to 300 s-1, and the opposed jets apparatus used to study fracture of the DNA molecules at strain rates up to 15 x 10(3) s-1. The molecular weight values were measured before and after fracture in elongational flow using the high-resolution technique of pulsed field gel electrophoresis (PFGE).

Visualization of the algal polysaccharide carrageenan by scanning tunnelling microscopy.

Scanning tunnelling microscopy has been used to obtain images in the constant-current mode in air and moist conditions at molecular resolution for the kappa- and iota-carrageenan algal polysaccharides. The molecules were deposited from an aqueous solution onto a graphite substrate. The samples formed aligned nematic-like arrays and were also found as individual molecules.

Molecular transforms of kappa carrageenan and furcellaran from mixed gel systems.

X-ray fibre diffraction studies of furcellaran-carob, furcellaran-tara, and furcellaran-konjac mannan mixed gels have failed to reveal any evidence for the predicted intermolecular binding between the algal polysaccharide helix and the galactomannan or glucomannan (konjac) mannan). In the absence of such interactions, mixed gels of kappa carrageenan-konjac mannan and furcellaran-konjac mannan, have been used to obtain good quality molecular transforms of the kappa carrageenan and furcellaran molecules in an oriented nematic liquid crystalline form. Analyses of the pattern support double helix structures with threefold symmetry with helix pitch of 2.

Molecular organization of type IV collagen: polymer liquid crystal-like aspects.

A new X-ray diffraction pattern from type IV collagen is described, which can be interpreted on the basis of crystalline and liquid crystalline origins of the reflections. Bovine anterior lens capsules extracted with 1 M NaCl and oriented by extension of 60% under constant load gave medium angle X-ray diffraction patterns showing many of the characteristics typical of liquid crystals. Prominent features, apart from those wide angle features attributable to the collagen triple helix, are (1) a four-point pattern of broad reflections at d-spacing 3.

Dermatan sulfate: molecular conformations and interactions in the condensed state.

The molecular conformations and manner of aggregation has been determined for three allomorphs of the connective tissue polysaccharide dermatan sulfate by analysis of X-ray diffraction from oriented, polycrystalline fibers of sodium salts. One allomorph is unique among glycosaminoglycans in having right-handed (8(3)) helical chains. Two such chains pack antiparallel in a tetragonal unit cell (a = b = 1.

Chemical cross-linking restrictions on models for the molecular organization of the collagen fibre.

The nature of the precise packing of collagen molecules into a collagen fibril, producing the characteristic regular banding, is still debatable. The problem has been approached using electron microscopy and X-ray diffraction techniques, and several models have been proposed, including hexagonal packing, an octafibril structure, a two-strand rope and a five-strand rope (for review, see ref. 1).

Molecular conformation of sodium heparan sulphate in the condensed phase.

By using the X-ray-diffraction results reported previously for sodium heparan sulphate, a twofold helical conformation with an axially projected disaccharide repeat (h) equal to 0.93 nm has been examined in detail. On the basis of a repeating sequence of 1,4-alpha-D-glucosamine and 1,4-beta-D-glucuronic acid, trial and stereochemically feasible molecular models were computer-generated.

Crystallization of macromolecular heparin.

X-ray fibre-diffraction photographs were obtained from oriented films of the sodium salt of macromolecular heparin (molecular weight approx. 10(6)) prepared from rat skin. Two distinct molecular chain conformations corresponding to two different crystal lattices were observed as a function of relative humidity.