Interaction of the antitumor antibiotic mitomycin C with Z-DNA

Mitomycin C (MC), an antitumor antibiotic, alkylated Z-DNAs such as poly(dG-dC)/Co(NH3)3+(6), poly(dG-m5dC)/Mg2+ and brominated poly(dG-dC) upon reductive activation. Computer-generated energy-minimized molecular models indicated that monofunctional alkylation of Z-DNA at the N2-position of guanine by MC did not distort Z-DNA geometry, but bifunctional alkylation, leading to interstrand crosslinks between two N2-positions of guanine was sterically unfavorable. The above three Z-DNA's were exposed both to monofunctionally and bifunctionally activated MC in separate experiments and the resulting covalent MC-polynucleotide complexes were examined for conformation and for covalent MC-adducts, by circular dichroism (CD) spectroscopy and HPLC analysis of nuclease digests, respectively. Monofunctionally activated MC alkylated all three polynucleotides in their Z-forms, resulting in the same monofunctional N2-guanine adduct as that known to be formed with B-DNA. Upon bifunctional activation of MC, poly(dG-dC/Co(NH3)3+(6) reverted to the B-form and bifunctional (cross-link) adducts were detected, identical again with those formed with B-DNA. Poly(dG-m5dC), however, remained in the Z-form after the alkylation and only a monofunctional adduct could be detected. It was concluded that Z-DNA is subject to monofunctional alkylation by MC but cannot be cross-linked. The latter process occurs only when the Z-DNA is labile enough [as is in the case of poly(dG-dC)] to have some B-form in equilibrium at the site of the first formed monolinked adduct; the cross-linking then occurs at such local B-sites, pulling the overall B in equilibrium Z equilibrium irreversibly to the left. These results are in accord with the predictions from the above modeling. The irreversible "lock" by the MC cross-link on B-DNA may be exploited for probing Z-DNA intermediacy in various DNA functions.     

Inter-alpha-trypsin inhibitor. Inhibition spectrum of native and derived forms

The conversion of inter-alpha-trypsin inhibitor (I alpha I) into active, acid-stable derivatives by proteolytic degradation has been tested with 10 different proteinases. Of these, only plasma kallikrein, cathepsin G, neutrophil elastase, and the Staphylococcus aureus V-8 proteinase were found to be effective, each releasing more than 50% of this activity. However, a strong correlation between inhibitor degradation and significant release of acid-stable activity could only be found with the V-8 enzyme. Inhibition kinetics for the interaction of native I alpha I, the inhibitory fragment released by digestion with S. aureus V-8 proteinase, or the related urinary trypsin inhibitor, with seven different proteinases indicated that all had essentially identical Ki values with an individual enzyme and, where measurements were possible, nearly identical second order association rate constants. Significantly, none of the five human proteinases tested, including trypsin, chymotrypsin, plasmin, neutrophil elastase, and cathepsin G, would appear to have low enough Ki values to be physiologically relevant. Thus, the role of native I alpha I or its degradation products in controlling a specific proteolytic activity is still unknown.     

Shoot regeneration from tissue-cultured leaves of the American cranberry (Vaccinium macrocarpon)

A method for shoot regeneration from leaf explants in two cultivars of cranberry (Vaccinium macrocarpon Ait.) is described. Modified Anderson's medium supplemented with combinations of thidiazuron (TDZ) with or without 1 M NAA (-naphthaleneacetic acid) was used to optimize shoot regeneration. The effect of light or dark incubation was also determined. Maximum regeneration was obtained in the light in the presence of 10 M TDZ and 1 M NAA. While this medium was suitable for leaf explants obtained from shoot cultures, regeneration did not occur from leaves collected from greenhouse-grown plants. Elongation of the regenerated shoot tips did not occur until explants were transferred to growth regulator-free medium at which time only a minority of shoots elongated. Elongated shoots could be dissected away from leaf tissue, rooted easily, and acclimitized to ambient conditions.Abbreviations NAA -naphthaleneacetic acid - TDZ 1-phenyl-3-(1,2,3-thiadiazol-5-yl) urea     

Fatty acids compositions of polar and non-polar lipid fractions of wheat leaves inoculated with three brown rust races during progressive pathogenesis

The fatty acids composition of the polar and non-polar lipid fractions of wheat leaves was affected due to progressive brown rust infection during early stages of pathogenesis,i.e. 0, 12, 24, 36, 48 and 72 h after inoculation. The three races ofPuccinia recondita differentially affected the composition of saturated and unsaturated fatty acids and their relative occurrence in wheat leaves. The infection of wheat by race 77 resulted in a relative decrease in fatty acid chain length as measured through C₁₆∶C₁₈ fatty acid ratio. An increase in the relative degree of unsaturation (18∶2/18∶3 acids ratio) was recorded in both lipid fractions. Such changes may be taken as one of the earliest characteristics of disease development.     

Rotavirus activates a noncanonical ATM‐Chk2 branch of DNA damage response during infection to positively regulate viroplasm dynamics

Surveillance for maintaining genomic pristineness, a protective safeguard of great onco‐preventive significance, has been dedicated in eukaryotic cells to a highly conserved and synchronised signalling cascade called DNA damage response (DDR). Not surprisingly, foreign genetic elements like those of viruses are often potential targets of DDR. Viruses have evolved novel ways to subvert this genome vigilance by twisting canonical DDR to a skewed, noncanonical response through selective hijacking of some DDR components while antagonising the others. Though reported for many DNA and a few RNA viruses, potential implications of DDR have not been addressed yet in case of infection with rotavirus (RV), a double‐stranded RNA virus. In the present study, we aimed at the modulation of ataxia telangiectasia mutated (ATM)‐checkpoint kinase 2 (Chk2) branch of DDR in response to RV infection in vitro. We found activation of the transducer kinase ATM and its downstream effector Chk2 in RV‐SA11‐infected cells, the activation response being maximal at 6‐hr post infection. Moreover, ATM activation was found to be dependent on induction of the upstream sensor Mre11‐Rad50‐Nbs1 (MRN) complex. Interestingly, RV‐SA11‐mediated maximal induction of ATM‐Chk2 pathway was revealed to be neither preceded by occurrence of nuclear DNA damage nor transduced to formation of damage‐induced canonical nuclear foci. Subsequent investigations affirmed sequestration of MRN components as well as ATM‐Chk2 proteins away from nucleus into cytosolic RV replication factories (viroplasms). Chemical intervention targeting ATM and Chk2 significantly inhibited fusion and maturation of viroplasms leading to attenuated viral propagation. Cumulatively, the current study describes RV‐mediated activation of a noncanonical ATM‐Chk2 branch of DDR skewed in favour of facilitated viroplasm fusion and productive viral perpetuation.     

Functional activity of RLIM/Rnf12 is regulated by phosphorylation-dependent nucleocytoplasmic shuttling

The X-linked gene Rnf12 encodes the ubiquitin ligase really interesting new gene (RING) finger LIM domain–interacting protein (RLIM)/RING finger protein 12 (Rnf12), which serves as a major sex-specific epigenetic regulator of female mouse nurturing tissues. Early during embryogenesis, RLIM/Rnf12 expressed from the maternal allele is crucial for the development of extraembryonic trophoblast cells. In contrast, in mammary glands of pregnant and lactating adult females RLIM/Rnf12 expressed from the paternal allele functions as a critical survival factor for milk-producing alveolar cells. Although RLIM/Rnf12 is detected mostly in the nucleus, little is known about how and in which cellular compartment(s) RLIM/Rnf12 mediates its biological functions. Here we demonstrate that RLIM/Rnf12 protein shuttles between nucleus and cytoplasm and this is regulated by phosphorylation of serine S214 located within its nuclear localization sequence. We show that shuttling is important for RLIM to exert its biological functions, as alveolar cell survival activity is inhibited in cells expressing shuttling-deficient nuclear or cytoplasmic RLIM/Rnf12. Thus regulated nucleocytoplasmic shuttling of RLIM/Rnf12 coordinates cellular compartments during mammary alveolar cell survival.     

Exogenous utilization of 14C sugars and 14C proline as carbon source for lipid biosynthesis in the germinating Crotalaria juncea L. pollen

Abstract

Of the ¹⁴C labelled sugars (sucrose, glucose and fructose) and ¹⁴C proline, the incorporation of label into different lipid types was least from proline while sucrose was the preferred precursor over glucose or fructose. High incorporation into phosphatidyl inositol with ¹⁴C sucrose suggested that this phosphatide besides being a membrane component served possibly as the inositol storage component. High incorporation of label into phosphatidyl choline also suggested synthesis of new membranes during pollen tube growth.