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Minor industrial crops in the Southern Africa region: an appraisal of developmental potential with special reference to interregional trade. (June-July 1995). Vol.1: The main report
This report presents the findings and conclusions arising from a team study carried out in June-August 1995 of the potential for development of 'minor industrial crops' in the Southern Africa region. The study focussed on spices, essential oils, gums, resins, natural colourants and castor oil. Information was gathered on markets and production by means of field studies in South Africa, Malawi, Zimbabwe and Zambia and was supplemented by examination of trade statistics and discussions with overseas traders. Time constraints on the study precluded a thorough investigation of all topics and, therefore, the conclusions reached must be regarded as a first phase overview of the regional market and a preliminary identification of the more promising crops for future development
Texture development and transformation strain of a cold-rolled Ti50-Ni45-Cu5 alloy
Shape memory alloys (SMAs) are finding increased use as functional materials in the aerospace, energy and medical industries 1 J. van Humbeeck, Shape Memory Materials and PhenomenaâFundamental Aspects and Applications, p. 3771, vol. 246, MRS, Pittsburgh, PA (1992).(1), (2) and (3). Shape memory behaviour is based on the recovery of large amounts of induced strain upon heating and/or unloading. This transformation strain is a result of the reversible growth of certain favoured martensite variants during martensite transformation and/or stressing [4] and [5]. For single crystal SMAs, the favoured variants are those which result in the maximum transformation strain for a specific orientation. This has been well established for several common single crystal SMAs such as TiNi, CuZnAl and CuAlNi [4] and [6].\ud
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For polycrystalline SMAs, it is not clear which variants are favoured. Anisotropic behaviour in SMAs has been interpreted based on the anisotropy data of single crystal materials using the concept of the selection of favoured martensite variants. This has met with only limited success in work on NiTi alloys due to the lack of information about which variants are formed [7] and [8]. An investigation of the anisotropic behaviour of textured SMAs was thus conducted in order to determine which martensite variants develop during thermal cycling of a commercial TiNiCu SMA. The relationship between the observed variant development, changes in texture and anisotropic shape memory behaviour are discussed in light of models using the concept of favoured martensite variants
CRISPR/Cas9-induced (CTGâ CAG)n repeat instability in the myotonic dystrophy type 1 locus: implications for therapeutic genome editing
Myotonic dystrophy type 1 (DM1) is caused by (CTGâ
CAG)n-repeat expansion within the DMPK gene and thought to be mediated by a toxic RNA gain of function. Current attempts to develop therapy for this disease mainly aim at destroying or blocking abnormal properties of mutant DMPK (CUG)n RNA. Here, we explored a DNA-directed strategy and demonstrate that single clustered regularly interspaced short palindromic repeats (CRISPR)/Cas9-cleavage in either its 5âČ or 3âČ unique flank promotes uncontrollable deletion of large segments from the expanded trinucleotide repeat, rather than formation of short indels usually seen after double-strand break repair. Complete and precise excision of the repeat tract from normal and large expanded DMPK alleles in myoblasts from unaffected individuals, DM1 patients, and a DM1 mouse model could be achieved at high frequency by dual CRISPR/Cas9-cleavage at either side of the (CTGâ
CAG)n sequence. Importantly, removal of the repeat appeared to have no detrimental effects on the expression of genes in the DM1 locus. Moreover, myogenic capacity, nucleocytoplasmic distribution, and abnormal RNP-binding behavior of transcripts from the edited DMPK gene were normalized. Dual sgRNA-guided excision of the (CTGâ
CAG)n tract by CRISPR/Cas9 technology is applicable for developing isogenic cell lines for research and may provide new therapeutic opportunities for patients with DM1
Variable number of tandem repeats in clinical strains of Haemophilus influenzae
An algorithm capable of identifying short repeat motifs was developed and
used to screen the whole genome sequence available for Haemophilus
influenzae, since some of these repeats have been shown to affect
bacterial virulence. Various di- to hexanucleotide repeats were
identified, confirming and extending previous findings on the existence of
variable-number-of-tandem-repeat loci (VNTRs). Repeats with units of 7 or
8 nucleotides were not encountered. For all of the 3- to 6-nucleotide
repeats in the H. influenzae chromosome, PCR tests capable of detecting
allelic polymorphisms were designed. Fourteen of 18 of the potential VNTRs
were indeed highly polymorphic when different strains were screened. Two
of the potential VNTRs appeared to be short and homogeneous in length;
another one may be specific for the H. influenzae Rd strain only. One of
the primer sets generated fingerprint-type DNA banding patterns. The
various repeat types differed with respect to intrinsic stability as well.
It was noted for separate colonies derived from a single clinical specimen
or strains passaged for several weeks on chocolate agar plates that the
lengths of the VNTRs did not change. When several strains from different
patients infected during an outbreak of lung disease were analyzed,
increased but limited variation was encountered in al
The diverse nature of island isolation and its effect on land bridge insular faunas
Aim:
Isolation is a key factor in island biology. It is usually defined as the distance to the geographically nearest mainland, but many other definitions exist. We explored how testing different isolation indices affects the inference of impacts of isolation on faunal characteristics. We focused on land bridge islands and compared the relationships of many spatial and temporal (i.e., through time) isolation indices with communityâ, populationâ and individualâlevel characteristics (species richness, population density and body size, respectively).
Location:
Aegean Sea islands, Greece.
Time period:
Current.
Taxon:
Many animal taxa.
Methods:
We estimated 21 isolation indices for 205 islands and recorded species richness data for 15 taxa (invertebrates and vertebrates). We obtained body size data for seven lizard species and population density data for three. We explored how well indices predict each characteristic, in each taxon, by conducting a series of ordinary least squares regressions (controlling for island area when needed) and a metaâanalysis.
Results:
Isolation was significantly (and negatively) associated with species richness in 10 of 15 taxa. It was significantly (and positively) associated with body size in only one of seven species and was not associated with population density. The effect of isolation on species richness was much weaker than that of island area, regardless of the index tested. Spatial indices generally outâperformed temporal indices, and indices directly related to the mainland outâperformed those related mainly to neighbouring islands. No index was universally superior to others, including the distance to the geographically nearest mainland.
Main conclusions:
The choice of index can alter our perception of the impacts of isolation on biological patterns. The nearly automatic, ubiquitous use of distance to the geographically nearest mainland misrepresents the complexity of the effects of isolation. We recommend the simultaneous testing of several indices that represent different aspects of isolation, in order to produce more constructive and thorough investigations and avoid imprecise inference
The propensity of the bacterial rodlin protein RdlB to form amyloid fibrils determines its function in Streptomyces coelicolor.
Streptomyces bacteria form reproductive aerial hyphae that are covered with a pattern of pairwise aligned fibrils called rodlets. The presence of the rodlet layer requires two homologous rodlin proteins, RdlA and RdlB, and the functional amyloid chaplin proteins, ChpA-H. In contrast to the redundancy shared among the eight chaplins, both RdlA and RdlB are indispensable for the establishment of this rodlet structure. By using a comprehensive biophysical approach combined with in vivo characterization we found that RdlB, but not RdlA, readily assembles into amyloid fibrils. The marked difference in amyloid propensity between these highly similar proteins could be largely attributed to a difference in amino acid sequence at just three sites. Further, an engineered RdlA protein in which these three key amino acids were replaced with the corresponding residues from RdlB could compensate for loss of RdlB and restore formation of the surface-exposed amyloid layer in bacteria. Our data reveal that RdlB is a new functional amyloid and provide a biophysical basis for the functional differences between the two rodlin proteins. This study enhances our understanding of how rodlin proteins contribute to formation of an outer fibrillar layer during spore morphogenesis in streptomycetes
Respiratory impedance in healthy unsedated South African infants: Effects of maternal smoking
Background and objective: Non-invasive techniques for measuring lung mechanics in infants are needed for a better understanding of lung growth and function, and to study the effects of prenatal factors on subsequent lung growth in healthy infants. The forced oscillation technique requires minimal cooperation from the individual but has rarely been used in infants. The study aims to assess the use of the forced oscillation technique to measure the influence of antenatal exposures on respiratory mechanics in unsedated infants enrolled in a birth cohort study in Cape Town, South Africa. Methods: Healthy term infants were studied at 6â10 weeks of age using the forced oscillation technique. Respiratory impedance was measured in the frequency range 8â48âHz via a face mask during natural sleep. Respiratory system resistance, compliance and inertance were calculated from the impedance spectra. Results: Of 177 infants tested, successful measurements were obtained in 164 (93%). Median (25â75%) values for resistance, compliance and inertance were 50.2 (39.5â60.6) cmH2O.s.Lâ1, 0.78 (0.61â0.99) mL.cmH2Oâ1 and 0.062 (0.050â0.086) cmH2O.s2.Lâ1, respectively. As a group, male infants had 16% higher resistance (Pâ=â0.006) and 18% lower compliance (Pâ =â0.02) than females. Infants whose mothers smoked during pregnancy had a 19% lower compliance than infants not exposed to tobacco smoke during pregnancy (Pâ=â0.005). Neither maternal HIV infection nor ethnicity had a significant effect on respiratory mechanics. Conclusions: The forced oscillation technique is sensitive enough to demonstrate the effects of tobacco smoke exposure and sex in respiratory mechanics in healthy infants. This technique will facilitate assessing perinatal influences of lung function in infancy
SepG coordinates sporulation-specific cell division and nucleoid organization in Streptomyces coelicolor
Microbial Biotechnolog
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