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Digitale Medien

A novel repeat sequence (CKRS-1) containing a tandemly repeated sub-element (kre) accounts for differences between Candida krusei strains fingerprinted with the probe CkF1,2 (1997)

Carlotti, A. ; Srikantha, Thyagarajan ; Schröppel, Klaus ; [weitere]

Springer

Current genetics 31 (1997), S. 255-263

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Details

ISSN: 1432-0983

Schlagwort(e): Key wordsCandida krusei ; Fingerprinting ; Probe ; Repeated sequence

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Abstract CkF1,2 has been reported as an effective DNA fingerprinting probe of Candida krusei. It is composed of two genomic EcoRI-restriction fragments, F1 and F2, which are approximately 5.4 and 5.2 kb, respectively. Sequence analysis of F1 reveals that it is 5261 bp-long, has a GC content of 42.2 mol%, and originates from the intergenic region of the ribosomal RNA cistrons (IGR). F1 comprises 488 bp of the 3′ end of a 25s rRNA gene, a non-transcribed spacer region 1 (NTS1), a 5s gene (121 bp), and a major portion of the non-transcribed spacer region 2 (NTS2). A 1256 bp-long repeated sequence, CKRS-1, with a GC content of 35 mol%, has been identified in NTS2. CKRS-1 contains eight tandemly repeated sub-elements, kre-0 to kre-7. The first two, kre-0 and kre-1, are 164 bp-long, the next five sub-elements, kre-2 to kre-6, are 165 bp-long, and the last element, kre-7, is 103 bp-long. The eight sub-elements share nucleotide-sequence homologies between 66 to 100%, with kre-2, kre-3 and kre-4 identical, and kre-0 the most divergent. Shorter repeated sequences were also identified in three regions of F1, which were named domains ``a'', ``b'' and ``c''. Restriction mapping, cross hybridization, and direct comparison of sequences show that F1 and F2 are polymophic forms of the IGR and their size difference is due both to the number of kre sub-elements in CKRS-1 and to a 24-bp deletion in domain ``b''. While F1 contains eight kre sub-elements, F2 contains seven. In C. krusei strain K31, four polymorphic forms of CKRS-1 have been identified containing five, six, seven and eight kre sub-elements. CKRS-1 is dispersed on three of the chromosomes of highest molecular weights separated by transverse alternating-field electrophoresis. CKRS-1 does not hybridize significantly to any transcription product. Polymorphisms in single DNA fingerprints and differences between the DNA fingerprints of strains of C. krusei based upon CkF1,2 hybridization patterns therefore appear to be based, at least in part, on the variable number of tandemly repeated kre sub-elements in CKRS-1.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/s002940050203

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Digitale Medien

In ascaris sperm pseudopods, msp fibers move proximally at a constant rate regardless of the forward rate of cellular translocation (1995)

Royal, Dewey ; Royal, Maryanne ; Soll, David R. ; [weitere]

New York, NY : Wiley-Blackwell

Cell Motility and the Cytoskeleton 31 (1995), S. 241-253

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Details

ISSN: 0886-1544

Schlagwort(e): Ascaris sperm ; motility ; computer-assisted motion analysis ; Life and Medical Sciences ; Cell & Developmental Biology

Quelle: Wiley InterScience Backfile Collection 1832-2000

Thema: Biologie , Medizin

Notizen: Computer-assisted methods have been employed to obtain a high resolution description of pseudopod expansion, cellular translocation, and the subcellular dynamics of MSP fiber complexes in the motile sperm of the nematode Ascaris suum. Although Ascaris sperm translocating in a straight line or along a curved path do not retract their pseudopod or significantly alter pseudopod shape, they move in a cyclic fashion, with an average period between velocity peaks of 0.35 × 0.05 min, which is independent of the forward velocity of sperm translocation. Expansion is confined to a central zone at the distal edge of the pseudopod for sperm translocating in a straight line and to a left-handed or right-handed lateral zone in the direction of turning, for sperm translocating along a curved path. For cells translocating in a straight line, the branch points and kinks of MSP fiber complexes move in a retrograde direction in relation to the substratum at an average velocity of 11 μm per min which is independent of the forward velocity of sperm translocation. The distal (anterior) end of a fiber complex, however, moves distally at the speed of sperm translocation when it emanates from the expansion zone, but when it is displaced to a nonexpanding surface of the pseudopod, it stops moving distally. When a cell is anchored to the substratum and is, therefore, nonmotile, the velocity of fiber complexes moving in a retrograde direction doubles. The unique aspects of pseudopod and MSP fiber complex dynamics in Ascaris are compared to the dynamics of pseudopod formation and actin filament dynamics in traditional actin-based amoeboid cells, and the treadmill model for MSP polymerization is reassessed in light of the discovery that fiber complex branch points move proximally (posteriorly) at a fixed rate.

Zusätzliches Material: 8 Ill.