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  • 1
    Electronic Resource
    Electronic Resource
    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)
    Springer
    Current genetics 31 (1997), S. 255-263 
    Details
    ISSN: 1432-0983
    Keywords: Key wordsCandida krusei ; Fingerprinting ; Probe ; Repeated sequence
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology
    Notes: 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.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/s002940050203
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  • 2
    Electronic Resource
    Electronic Resource
    A comparison of high frequency switching in the yeast Candida albicans and the slime mold Dictyostelium discoideum (1988)
    Chichester [u.a.] : Wiley-Blackwell
    Developmental Genetics 9 (1988), S. 615-628 
    Details
    ISSN: 0192-253X
    Keywords: colony morphology ; yeast cell wall ; aggregation variants ; Life and Medical Sciences ; Genetics
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Biology
    Notes: Recently, high frequency switching systems have been identified in the infectious yeast Candida albicans and the cellular slime mold Dictyostelium discoideum. In C. albicans, cells can switch at spontaneous frequencies as high as 10-2 between seven general colony morphologies in the case of strain 3153A or between two major phenotypes in the white-opaque transition in strain WO-1. In the latter system, dramatic changes occur in cellular phenotype as well. In D. discoideum, cells can switch at spontaneous frequencies of roughly 10-2 between a number of colony phenotypes which include alterations in developmental timing, blocks at particular morphogenetic stages, morphological aberrations, and aggregation-minus. In the C. albicans and D. discoideum switching systems, the following characteristics are shared: (l) a limited number of switch phenotypes; (2) heritability; (3) high frequency reversibility; (4) low and high frequency modes of switching; and (5) ultraviolet (UV) stimulation of switching of cells in a low frequency mode of switching.
    Additional Material: 7 Ill.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1002/dvg.1020090438
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  • 3
    Electronic Resource
    Electronic Resource
    Intracellular vesicle movement, cAMP and myosin II in Dictyostelium (1990)
    Chichester [u.a.] : Wiley-Blackwell
    Developmental Genetics 11 (1990), S. 341-353 
    Details
    ISSN: 0192-253X
    Keywords: Vesicle movement ; myosin II ; cAMP ; Dictyostelium ; actin ; computer-assisted motion analysis ; Life and Medical Sciences ; Genetics
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Biology
    Notes: Dictyostelium amoebae were analyzed before and after rapid addition of 10-6 M cAMP for cellular motility, dynamic shape changes, and intracellular particle movement. Before cAMP addition, amoebae moved in a persistent anterior fashion and were elongate with F-actin localized predominantly in the anterior pseudopod. Intracellular particles moved rapidly and anteriorly. Within seconds after 10-6 M cAMP addition, cells stopped translocating, pseudopod formation ceased, intra-cellular particle movement was depressed, and F-actin was lost from the pseudopod and concomitantly relocalized in the cell cortex After 10 seconds, expansion zones reappeared but were small and no longer anteriorly localized. Vesicle movement partially rebounded but was no longer anteriorly directed. The myosin II null mutant HS2215 exhibited both depressed cellular translocation and vesicle movement. The addition of cAMP to HS2215 cells did not result in any detectable change in the random, depressed movement of particles. The results with HS2215 suggest that myosin II is essential for (1) rapid cellular translocation, (2) cellular polarity, (3) rapid particle movement, (4) anteriorly directed particle movement, and (5) the cAMP response. Electron micrographs suggest that at least half of the particles examined in this study contain in turn smaller membrane bound vesicles or multilameilar membrane bodies. The possible role of these vesicles is discussed.
    Additional Material: 10 Ill.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1002/dvg.1020110505
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  • 4
    Electronic Resource
    Electronic Resource
    A dedifferentiation-defective mutant of Dictyostelium that retains the capacity to aggregate in the absence of chemotaxis (1983)
    Chichester [u.a.] : Wiley-Blackwell
    Developmental Genetics 4 (1983), S. 167-184 
    Details
    ISSN: 0192-253X
    Keywords: dedifferentiation ; Dictyostelium ; aggregation ; mutant ; Life and Medical Sciences ; Genetics
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Biology
    Notes: During slime mold development, cells acquire the capacity to rapidly recapitulate morphogenesis in roughly a tenth the original time. When developing cells are disaggregated and refed, they completely loss this capacity in a rapid and synchronous step referred to as the “erasure event.” The erasure event sets in motion a program of dedifferentiation during which developmentally acquired functions are lost at different times. In this report, we describe the phenotype of HI4, which is a mutant partially defective in the dedifferentiation program but normal in all aspects of growth, morphogenesis, and rapid recapitulation. HI4 cells progress through the erasure event, losing in a relatively normal fashion (I) the capacity to rapidly recapitulate later stages of morphogenesis, (2) the capacity to release a cAMP signal, and (3) the capacity to respond chemotactically to a cAMP signal. However, erased HI4 cells abnormally retain the capacity to rapidly reaggregate, even though they have lost chemotactic functions. Erased HI4 cells also abnormally retain EDTA-resistant cohesion (contact sites A) and the surface glycoprotein gp80. It appears that erased HI4 cells rapidly reaggregate owing to random collisions followed by tight cell cohesion.
    Additional Material: 8 Ill.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1002/dvg.1020040304
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