Sanja Krča scite author profile

The fundamental length scales in semidilute Na-DNA aqueous solutions have been investigated by dielectric spectroscopy. The low- and the high-frequency relaxation modes are studied in detail. The length scale of the high-frequency relaxation mode at high DNA concentrations can be identified with the de Gennes-Pfeuty-Dobrynin correlation length of polyelectrolytes in semidilute solution, whereas at low DNA concentrations and in the low added salt limit the length scale shows an unusual exponent reminiscent of semidilute polyelectrolyte chains with hydrophobic backbone. The length scale of the low-frequency relaxation mode corresponds to a Gaussian chain composed of correlation blobs in the low added salt limit, and to the Odijk-Skolnick-Fixman value of the single chain persistence length in the high added salt limit.

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Expression of P-glycoprotein gene in marine sponges. Identification and characterization of the 125 kDa drug-binding glycoprotein

Kurelec

Krča

Pivčević

et al. 1992

Carcinogenesis

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In the present paper it is shown that the marine sponges Geodia cydonium and Verongia aerophoba contain the gene coding for P-glycoprotein P170, also known as a multidrug-resistance gene. Western blot studies revealed that polyclonal antibodies raised against hamster P170 cross-react with the sponge polypeptide of Mr 125,000. After endoglycosidase F treatment, the sponge P125 is converted to a polypeptide of Mr 105,000. Northern blot studies, using the human P170 cDNA probe, revealed a size of 4.2 kb for the sponge P125 transcript. The level of this transcript does not change in response to incubation with the aggregation factor. Confocal laser scanning microscopy showed that P125 is a cell membrane bound protein. In addition, sponge membrane vesicles possess a potential to bind in vitro 2-acetylamino-fluorene, vincristine and daunomycin. This process is Verapamil-sensitive, a characteristic known also for the mammalian vesicle associated P170. The data reported demonstrate that the classical multidrug resistance mechanism, described in drug-resistant tumor cell lines, functions also in sponges and may explain the relative resistance of these animals to pollution.

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Short-fragment Na-DNA dilute aqueous solutions: Fundamental length scales and screening

et al. 2008

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Dielectric spectroscopy is used to investigate fundamental length scales of 146 bp short-fragment (nucleosomal) dilute Na-DNA solutions. Two relaxation modes are detected: the high-and the low-frequency mode. Dependence of the corresponding length scales on the DNA and on the (uni-valent) salt concentration is studied in detail, being different from the case of long, genomic DNA, investigated before. In low added salt regime, the length scale of the highfrequency mode scales as the average separation between DNAs, though it is smaller in absolute magnitude, whereas the length scale of the low-frequency mode is equal to the contour length of DNA. These fundamental length scales in low added salt regime do not depend on whether DNA is in a double stranded or single stranded form. On the other hand, with increasing added salt, the characteristic length scale of low-frequency mode diminishes at low DNA concentrations probably due to dynamical formation of denaturation bubbles and/or fraying in the vicinity of DNA denaturation threshold.

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Sanja Krča

Dielectric relaxation of DNA aqueous solutions

Interspecies differences in P-glycoprotein mediated activity of multixenobiotic resistance mechanism in several marine and freshwater invertebrates

Screening and Fundamental Length Scales in Semidilute Na-DNA Aqueous Solutions

Expression of P-glycoprotein gene in marine sponges. Identification and characterization of the 125 kDa drug-binding glycoprotein

Short-fragment Na-DNA dilute aqueous solutions: Fundamental length scales and screening

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