Coccinellid predation efficiency on Aphis gossypii (Hemiptera: Aphididae) under laboratory conditions.

In this study, we investigated the biological aspects and predation efficiency of 3 aphidophagous ladybird beetles, Coccinella novemnotata, Hippodamia variegata, and Coccinella septempunctata, on the cotton aphid, Aphis gossypii, reared on cucumber plants (Cucumis sativus L. cultivar barracuda) under laboratory conditions. The developmental periods of C. novemnotata, H. variegata, and C. septempunctata were observed to be 16.00 ±â€…0.25, 16.00 ±â€…0.25, and 20.58 ±â€…0.40 days, respectively. The larvae of these ladybird beetles consumed an average of 218.93 ±â€…8.86, 254.77 ±â€…8.86, and 537.36 ±â€…10.49 aphids, respectively. Fourth-instar larvae were particularly efficient, consuming 53.68%, 52.68%, and 52.64% of total aphids for C. novemnotata, H. variegata, and C. septempunctata, respectively. Adult emergence rates were promising, with 91.67%, 100.00%, and 92.86%, accompanied by sex ratios of 63.64%, 53.84%, and 61.54%, respectively. Notably, a single female of C. novemnotata, H. variegata, and C. septempunctata consumed an average of 2,215.30, 2,232.00, and 3,364.50 aphids, respectively, over its lifespan. Coccinella septempunctata demonstrated the highest predation efficiency among the 3 species, suggesting its potential for biological control of A. gossypii in both open fields and greenhouses, promoting sustainable agricultural practices.

Preliminary studies on the inhibitory effect of novel Pd(II) complexes of vitamin B6 on cell divisions.

Two novel complexes of Pd(II) involving vitamin B6 compounds have been synthesized. They are compatible with the compositions Pd(P.H.)2 C2(P = pyridoxol) and Pd(PL.H)2 C2(PL = pyridoxal). The complexes inhibited the growth as well as the biosynthesis of RNA, DNA, and protein of E. coli B-766. Photoacoustic spectral (PAS) measurements showed that the complexes bound to DNA of the bacteria and were present only in the kidney of treated mice. The complexes inhibited the incorporation of 3H-thymidine as well as 14C-leucine in the DNA and protein, respectively, of liver cell cultures (BL8L). The inhibition of cell division of Walker-S-cells and human lymphocytes by the complexes was highly significant.

The effect of the antioxidant spermine on the photophysical reactions of tryptophan in aqueous solution at 77 K.

Fluorescence, phosphorescence and electron paramagnetic resonance techniques were used to investigate the effect of the antioxidant spermine on the initial photophysical reactions of tryptophan (Trp) in aqueous salt solutions at 77 K. At low concentrations of Trp (3.5 X 10(-5) M) a ground state complex was formed between one Trp and two spermine molecules (a 1:2 complex). Complexed Trp was photodegraded at a rate 65% lower than the free molecule due to a change in the charge-transfer character of the excited 1La state. At high concentrations of Trp (3.5 X 10(-3) M) the phosphorescence was almost completely quenched due to hydrogen-bond formation between two neighbouring Trp molecules. A strong complex was formed between this Trp dimer and one spermine molecule on addition of spermine (a 2:1 complex). Spermine enhanced intersystem crossing in one of the two Trp molecules in the 2:1 complex and phosphorescence was observed. From this triplet state the tryptophyl radical was formed with high efficiency by hydrogen-atom transfer. The yield of radical formation from the triplet state in the 2:1 complex was much larger than from the excited singlet state in the 1:2 complex.