Mikko Luokkamäki scite author profile

Mikko Luokkamäki

5Publications

57Citation Statements Received

48Citation Statements Given

How they've been cited

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108

Affiliations

Radiation and Nuclear Safety Authority, University of Helsinki

Publications

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Hereditary Minisatellite Mutations among the Offspring of Estonian Chernobyl Cleanup Workers

et al. 2003

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A single accidental event such as the fallout released from the Chernobyl reactor in 1986 can expose millions of people to non-natural environmental radiation. Ionizing radiation increases the frequency of germline mutations in experimental studies, but the genetic effects of radiation in humans remain largely undefined. To evaluate the hereditary effects of low radiation doses, we compared the minisatellite mutation rates of 155 children born to Estonian Chernobyl cleanup workers after the accident with those of their siblings born prior to it. All together, 94 de novo paternal minisatellite mutations were found at eight tested loci (52 and 42 mutants among children born after and before the accident, respectively). The minisatellite mutation rate was nonsignificantly increased among children born after the accident (0.042 compared to 0.036, OR 1.33, 95% CI 0.80-2.20). Furthermore, there was some indication of an increased mutation rate among offspring born after the accident to workers who had received doses of 20 cSv or above compared with their siblings born before the accident (OR 3.0, 95% CI 0.97-9.30). The mutation rate was not associated with the father's age (OR 1.04, 95% CI 0.94-1.15) or the sex of the child (OR 0.95, 95% CI 0.50-1.79). Our results are consistent with both no effect of radiation on minisatellite mutations and a slight increase at dose levels exceeding 20 cSv.

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Onset of Chromatin Fragmentation in Chloroma Cell Apoptosis Is Highly Sensitive to UV and Begins at Non-B DNA Conformation

Luokkamäki¹,

Servomaa²,

Rytömaa³

1993

International Journal of Radiation Biology

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UV irradiation induces programmed death, or apoptosis, in rat chloroleukaemia cells, a process characterized by typical cell morphology, fragmentation of chromatin into units of single and multiple nucleosomes, and transcriptional activation of LINE. Our study shows that this process is initiated by very low UV doses: exposure to one minimal erythema dose (MED, about 200 J/m2), at defined wavelengths ranging from 270 to 330 nm, is sufficient. By sequencing 100 randomly selected blunt-end chromatin fragments (single and multiple nucleosomes) we observed that at an early stage of apoptosis the fragmented DNA contains a four-fold excess of both long and short interspersed nuclear retroelements (LINEs and SINEs). A distinct sequence finding was also the observation that fragmented DNA is very rich in microsatellites, (CA)n dinucleotides in particular, and in long stretches of homopurine/homopyrimidine domains. The present results thus indicate that chromatin fragmentation in UV-induced apoptosis begins at non-random locations involving non-B DNA conformation, and that the onset of the suicide process in chloroleukaemia cells is surprisingly sensitive to UV exposure.

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Isolation and characterization of a substitution mutation in the ompR gene of Salmonella typhimurium LT2

Liljeström¹,

Luokkamäki²,

Palva³

1987

J Bacteriol

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The expression of the genes ompC and ompF encoding major outer membrane proteins is dependent on the ompR-envZ operon. Here we describe the isolation and characterization of an ompR mutation, a single-base-pair change, that results in an Arg-to-Cys substitution. When present in multiple copies, the mutant allele conferred a dominant OmpC- OmpF+ phenotype. Furthermore, the mutant allele exhibited allele-specific negative complementation with other ompR mutations. This ability, together with its dominant character, suggested that the OmpR protein is capable of multimerization.

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Cold-sensitive ompB mutants affecting expression of ompC in Escherichia coli K12

Luokkamäki

1987

FEMS Microbiology Letters

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SUMMARYThe regulatory locus ompB, consisting of 2 genes, ompR and envZ, is required for the expression of ompC and ompF genes encoding the major outer membrane porin proteins OmpC and OmpF in Escherichia coli K12. We utilized localized mutagenesis to isolate cold-sensitive mutants in the ompB operon. The isolated mutants exhibited a cold-sensitive OmpC-phenotype, but remained OmpF-. Furthermore, ompC expression was still regulated by medium osmolarity. The cold-sensitive OmpC-phenotype was complemented by plasmids carrying the wild-type' ompB operon, but not by plasmids containing either envZ or ompR genes alone. This suggests that the mutations are in the ompB promotor. We show that the mutations can be used to control expression vectors based on the ompC promotor.

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Cold-sensitiveompBmutants affecting expression ofompCinEscherichia coliK12

Luokkamäki

Palva

1987

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The regulatory locus ompB, consisting of 2 genes, ompR and envZ, is required for the expression of ompC and ompF genes encoding the major outer membrane porin proteins OmpC and OmpF in Escherichia coli K12. We utilized localized mutagenesis to isolate cold‐sensitive mutants in the ompB operon. The isolated mutants exhibited a cold‐sensitive OmpC− phenotype, but remained OmpF+. Furthermore, ompC expression was still regulated by medium osmolarity. The cold‐sensitive OmpC− phenotype was complemented by plasmids carrying the wild‐type ompB operon, but not by plasmids containing either envZ or ompR genes alone. This suggests that the mutations are in the ompB promotor. We show that the mutations can be used to control expression vectors based on the ompC promotor.

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