“Patterns of clinal genetic variation in Drosophila are of


“Patterns of clinal genetic variation in Drosophila are often characterized after rearing at constant temperatures. 4 However, clinal patterns might change after acclimation if populations differ in their Semaxanib solubility dmso plastic response to fluctuating environments. We studied longevity, starvation and heat knock-down resistance after development at either constant or fluctuating temperatures in nine Drosophila buzzatii populations collected along an altitudinal

gradient in Tenerife, Spain. Flies that developed at fluctuating temperatures had higher stress resistance despite experiencing a slightly lower average temperature than those at constant temperatures. Genetic variation along the gradient was found in both stress-resistance traits. Because Q(ST) values greatly exceeded F(ST) values, genetic drift

could not explain this diversification. In general, differences among populations were larger after rearing at fluctuating temperatures, especially in heat knock-down, for which clinal patterns disappeared when flies were reared at constant temperatures. This result emphasizes the importance of determining whether populations originating from AG-881 different environments differ in their plastic responses to stress.”
“Tumor cell destruction in boron neutron capture therapy (BNCT) is due to the nuclear reaction between (10)B and thermal neutrons. The thermal neutrons have an energy of 0.025 eV, clearly below the threshold energy required BMS-777607 price to ionize tissue components. However, neutron capture by (10)B produces lithium ion and helium (alpha-partictes), which are high linear energy transfer (LET) particles, and dissipate their kinetic energy before traveling one cell diameter (5-9 mu m) in biological tissues, ensuring their potential for precise cell killing. BNCT has been applied clinically for the treatment of malignant brain tumors, malignant melanoma, head and neck cancer, and hepatoma using two boron compounds:

sodium borocaptate (Na(2)(10)B(12)H(11)SH; Na(2)(10)BSH) and L-P-boronophenylalanine (L-(10)BPA). These low molecular weight compounds are cleared easily from the cancer cells and blood. Therefore, high accumulation and selective delivery of boron compounds into tumor tissues are most important to achieve effective BNCT and to avoid damage of adjacent healthy cells. Much attention has been focused on the liposomal drug delivery system (DDS) as an attractive, intelligent technology of targeting and controlled release of (10)B compounds. Two approaches have been investigated for incorporation of (10)B into liposomes: (1) encapsulation of (10)B compounds into liposomes and (2) incorporation of (10)B-conjugated lipids into the liposomal bilayer. Our laboratory has developed boron ion cluster lipids for application of the latter approach. In this chapter, our boron lipid liposome approaches as well as recent developments of the liposomal boron delivery system are summarized.

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