Down's syndrome: establishment of lymphoblastoid cell lines with trisomy 21

Spider-silk inspired polymeric networks by harnessing the mechanical potential of β-sheets through network guided assembly

The high toughness of natural spider-silk is attributed to their unique β-sheet secondary structures. However, the preparation of mechanically strong β-sheet rich materials remains a significant challenge due to challenges involved in processing the polymers/proteins, and managing the assembly of the hydrophobic residues. Inspired by spider-silk, our approach effectively utilizes the superior mechanical toughness and stability afforded by localised β-sheet domains within an amorphous network. Using a grafting-from polymerisation approach within an amorphous hydrophilic network allows for spatially controlled growth of poly(valine) and poly(valine-r-glycine) as β-sheet forming polypeptides via N-carboxyanhydride ring opening polymerisation. The resulting continuous β-sheet nanocrystal network exhibits improved compressive strength and stiffness over the initial network lacking β-sheets of up to 30 MPa (300 times greater than the initial network) and 6 MPa (100 times greater than the initial network) respectively. The network demonstrates improved resistance to strong acid, base and protein denaturants over 28 days.

It is known the β-sheet structures in silk-inspired materials generate increased mechanical properties. Here, the authors report on a method of creating silk-inspired materials using in situ formation of β-sheets in an amorphous polymer to replicate the structure of silk and increase the mechanical properties.

Basophilic differentiation of chronic myelogenous leukaemia cells in vitro

Peripheral leucocytes from 10 patients with chronic myelogenous leukaemia (CML) were cultured in liquid medium and observed morphologically for 6 to 10 weeks. All cultures showed in increased proportion of mature basophilis at about 3 weeks and most cultures consisted predominantly of mature basophilis at about 5 weeks. The results indicate preferential basophilic differentiation of CML leucocytes in vitro and are consistent with basophilia frequently observed in CML patients.

Evaluation of Epstein-Barr virus-associated nuclear antigen with various human cell lines

Critical evaluation of the anti-complement immunofluorescence (ACIF) test for Epstein-Barr virus-associated nuclear antigen (EBNA) in known EBV-associated cell lines was carried out. The ACIF procedure, in which the cell smears were thoroughly air-dried and fixed with carbon tetrachloride (for 15 min at room termperature), provided reproducible staining results with minimum variations. The fixed smears coulb be stored for at least 5 weeks at minus 80 degrees C without loss of reactivity. On the basis of the above evaluation, a total of 59 human cell lines, which had unknown or uncertain association with EBV, were examined for the presence or absence of EBNA by the ACIF procedure. All of the cell lines tested could be judged positive or negative for EBNA. All of 21 lines growing as monolayer or in a mixed state of monolayer and suspension, were negative. Of 38 lines grown in suspension, 36 lymphoblastoid lines were positive but the remaining 2 lines (seemingly not lymphoblastoid) were negative.