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1. ABC transporters in lipid transport.

Author

Borst P, Zelcer N, and van Helvoort A

Subjects
ATP Binding Cassette Transporter 1, ATP Binding Cassette Transporter, Subfamily B genetics, ATP Binding Cassette Transporter, Subfamily B metabolism, ATP-Binding Cassette Transporters genetics, Animals, Bacterial Proteins metabolism, Bile metabolism, Biological Transport, Carrier Proteins metabolism, Drug Resistance, Multiple, Glycoproteins metabolism, Humans, Liver metabolism, Membrane Lipids metabolism, Membrane Proteins metabolism, Multidrug Resistance-Associated Proteins, Phosphatidylcholines metabolism, Substrate Specificity, Transfection, ATP-Binding Cassette Transporters metabolism, Lipid Metabolism, Phospholipid Transfer Proteins
Abstract

Since it was found that the P-glycoproteins encoded by the MDR3 (MDR2) gene in humans and the Mdr2 gene in mice are primarily phosphatidylcholine translocators, there has been increasing interest in the possibility that other ATP binding cassette (ABC) transporters are involved in lipid transport. The evidence reviewed here shows that the MDR1 P-glycoprotein and the multidrug resistance (-associated) transporter 1 (MRP1) are able to transport lipid analogues, but probably not major natural membrane lipids. Both transporters can transport a wide range of hydrophobic drugs and may see lipid analogues as just another drug. The MDR3 gene probably arose in evolution from a drug-transporting P-glycoprotein gene. Recent work has shown that the phosphatidylcholine translocator has retained significant drug transport activity and that this transport is inhibited by inhibitors of drug-transporting P-glycoproteins. Whether the phosphatidylcholine translocator also functions as a transporter of some drugs in vivo remains to be seen. Three other ABC transporters were recently shown to be involved in lipid transport: ABCR, also called Rim protein, was shown to be defective in Stargardt's macular dystrophy; this protein probably transports a complex of retinaldehyde and phosphatidylethanolamine in the retina of the eye. ABC1 was shown to be essential for the exit of cholesterol from cells and is probably a cholesterol transporter. A third example, the ABC transporter involved in the import of long-chain fatty acids into peroxisomes, is discussed in the chapter by Hettema and Tabak in this volume.

Published
2000
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2. The multidrug resistance protein family.

Author

Borst P, Evers R, Kool M, and Wijnholds J

Subjects
ATP Binding Cassette Transporter, Subfamily B genetics, ATP Binding Cassette Transporter, Subfamily B, Member 1 metabolism, ATP-Binding Cassette Transporters metabolism, Animals, Anion Transport Proteins, Carrier Proteins genetics, Cell Line, Cell Membrane metabolism, Glutathione metabolism, Humans, Models, Molecular, Multidrug Resistance-Associated Protein 2, Multidrug Resistance-Associated Proteins, Phylogeny, Terminology as Topic, Transfection, ATP Binding Cassette Transporter, Subfamily B, Member 1 genetics, ATP-Binding Cassette Transporters genetics, Drug Resistance, Multiple genetics, Membrane Transport Proteins
Abstract

The human multidrug resistance protein (MRP) family contains at least six members: MRP1, the godfather of the family and well known as the multidrug resistance protein, and five homologs, called MRP2-6. In this review, we summarize what is known about the protein structure, the expression in tissues, the routing in cells, the physiological functions, the substrate specificity, and the role in multidrug resistance of the individual members of the MRP family.

Published
1999
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3. Characterization of the promoter region of the human MDR3 P-glycoprotein gene.

Author

Smit JJ, Mol CA, van Deemter L, Wagenaar E, Schinkel AH, and Borst P

Subjects
ATP Binding Cassette Transporter, Subfamily B, Member 1 biosynthesis, Animals, Base Sequence, Carcinoma, Hepatocellular pathology, Cloning, Molecular, Consensus Sequence, DNA, Complementary genetics, Enhancer Elements, Genetic, Exons genetics, Gene Expression Regulation, Genes, Reporter, Humans, Liver Neoplasms pathology, Mice genetics, Molecular Sequence Data, RNA Splicing, Recombinant Fusion Proteins biosynthesis, Sequence Alignment, Sequence Homology, Nucleic Acid, Transcription, Genetic, Tumor Cells, Cultured, ATP Binding Cassette Transporter, Subfamily B, Member 1 genetics, Genes, Promoter Regions, Genetic
Abstract

The human MDR3 (or MDR2) P-glycoprotein is probably involved in the transport of phospholipids from liver hepatocytes into bile (Smit et al. (1993) Cell 75, 451-462). In accordance with this function, MDR3 is highly expressed in human liver, but lower mRNA levels were also found in adrenal, heart, muscle and cells of the B-cell compartment. We have cloned and analyzed the MDR3 promoter region. It is GC-rich, and contains neither a TATA nor a CAAT box, but it does contain multiple putative SP1 binding sites, features also found in so-called housekeeping genes. RNase protection and primer extension analyses indicate that the MDR3 gene has multiple transcription start sites in a GC-rich region with considerable homology to the putative mouse mdr2 promoter. A 3 kb genomic fragment containing the MDR3 start sites directs transcription of a chloramphenicol acetyltransferase (CAT) reporter gene upon transient transfection in the human hepatoma cell line HepG2. This transcription is orientation dependent, and stimulated by a SV40 enhancer, indicating that the 3 kb insert contains the core promoter elements of the MDR3 gene. The promoter region contains several consensus sequences where known or putative liver-specific (C/EBP, HNF5) or lymphoid specific (Pu.1, ets-1) transcription factors may bind.

Published
1995
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4. Maxi-circles and mini-circles in kinetoplast DNA from trypanosoma cruzi.

Author

Leon W, Frasch AC, Hoeijmakers JH, Fase-Fowler F, Borst P, Brunel F, and Davison J

Subjects
Animals, DNA Restriction Enzymes, Electrophoresis, Agar Gel, Microscopy, Electron, Molecular Weight, Nucleic Acid Hybridization, DNA analysis, Trypanosoma cruzi analysis
Abstract

Maxi-circles are a minor component of kinetoplast DNAs from all trypanosomatids studied, but they have not previously been found in Trypanosoma cruzi; We have spread intact kinetoplast DNA from the epimastigotes of strain Y in protein monolayers and analysed the mini-circle networks by electron microscopy. Long loops up to 10 micrometer were present, extending from the network rim; these are considered typical of maxi-circles. The presence of maxi-circles was proven by digestion of kinetoplast DNA with restriction endonucleases and S1 nuclease. This released a minor DNA component, detectable by agarose gel electrophoresis, which hybridized to maxi-circle DNA from Trypanosoma brucei. The molecular weight of the linearized maxi-circle of Trypanosoma cruzi is 26 . 10(6), as judged from its electrophoretic mobility in 0.6% agarose. Our restriction enzyme analysis of the mini-circles of Trypanosoma cruzi has confirmed their sequence heterogeneity and internally-repeated structure. We have found that more than 90% of the mini-circles are cut into 1/4 length molecules by endonuclease TaqI. Denaturation and renaturation of mini-circles, cut once with endonuclease MboI, mainly yields linear and circular molecules with single-stranded eyes and tails in electron micrographs. This shows that 1/4 repeats contain sub-segments in which sequence divergence is extensive. Our EcoRI and HapII digests differ in fragment size distribution from those previously reported. This suggests that this distribution may not be a stable characteristic of the Y strain.

Published
1980
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5. Replication of the linear mitochondrial DNA of Tetrahymena pyriformis.

Author

Goldbach RW, Bollen-de Boer JE, van Bruggen EF, and Borst P

Subjects
Animals, Base Sequence, Chloramphenicol pharmacology, DNA, Single-Stranded metabolism, Diminazene pharmacology, Nucleic Acid Conformation, Tetrahymena pyriformis metabolism, DNA Replication drug effects, DNA, Mitochondrial biosynthesis, Tetrahymena pyriformis genetics
Abstract

1. Electron micrographs of the linear mtDNA from Tetrahymena pyriformis strain GL show linear molecules with a duplex 'eye' of variable size in the middle. This indicates that replication of this DNA starts near the middle of the molecule and proceeds bidirectionally to the ends, as previously shown for the mtDNA of strain ST (Arnberg, A.C., Van Bruggen, E.F.J., Clegg, R.A., Upholt, W.B. and Borst, P. (1974) Biochim. Biophys. Acta 361, 266-276). The mtDNAs of these two strains have little base sequence homology beyond the ribosomal RNA cistron (Goldbach, R.W., Bollen-De Boer, J.E., Van Bruggen, E.F.J. and Borst, P. (1978) Biochim. Biophys. Acta 521, 187-197). 2. Electron micrographs of mtDNA from strain ST, spread under non-denaturing conditions, contain only molecules with fully duplex ends. mtDNA spread under conditions of early denaturation contains duplex loops on one end (40% of all molecules) or both ends (37%). The loops are stable to partial denaturation and vary in size from 0.15 to approximately 1.0 micron, most loops measuring 0.25--0.40 micron. No loops are formed with single-stranded DNA under analogous conditions and we conclude from this result that loop formation is based on the presence of straight, rather than inverted, duplications near the ends. 3. When full-length 3H-labelled mtDNA from strain ST, 32P-labelled at the 5'-termini with T4 polynucleotide kinase, was sedimented in alkaline sucrose gradients, greater than 70% of the 3H and less than 30% of the 32P cosedimented with full-length molecules; the remaining 32P sedimented heterogeneously and predominantly with the DNA less than 10% the size of intact single strands. Brief incubations of full-length mtDNA with DNA polymerase I from Escherichia coli and labelled dNTPs at 15 degrees C did not lead to preferential labelling of terminal EcoRI fragments of the DNA. From these results we infer that the DNA contains nicks or gaps near the termini and that these are not bordered by free 3'-OH groups. 4. A model is presented in which straight sequence repetitions at the termini of Tetrahymena pyriformis mtDNA are involved in the later stages of replication. This model can also account for the pronounced terminal heterogeneity previously observed in this DNA.

Published
1979
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7. DNA circles with cruciforms from Isospora (Toxoplasma) gondii.

Author

Borst P, Overdulve JP, Weijers PJ, Fase-Fowler F, and Van den Berg M

Subjects
DNA, Bacterial genetics, Ethidium pharmacology, Microscopy, Electron, Nucleic Acid Conformation drug effects, Species Specificity, DNA, Circular genetics, Toxoplasma genetics
Abstract

We have isolated a closed circular duplex DNA fraction from the unicellular parasite Isospora (Toxoplasma) gondii and examined the purified DNA by electron microscopy. A major part of this circular DNA consists of 12-micron circles containing a cruciform with 0.5-micron tails. We also found 23-micron circles with the properties expected of head-to-tail dimers of the 12-micron circles. Some of these dimers have two cruciforms with 0.4-micron tails, some have one cruciform with 0.8-micron tails. When ethidium bromide was diffused into the DNA solution, circles with tails were replaced by twisted circles without tails. Direct mixing of the DNA with high ethidium bromide concentrations (5 micrograms/ml) gave rise to highly twisted circles with tails. This proves that the tailed circles are covalently continuous and indicates that ethidium bromide blocks branch migration. The 0.5-micron tails are part of a 1.7-micron palindrome, which was visualized by spreading denatured DNA under snap-back conditions. We argue that the cruciform is not present in vivo and that the 12-micron circles may represent the mitochondrial DNA of Toxoplasma.

Published
1984
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8. Variations in maxi-circle and mini-circle sequences in kinetoplast DNAs from different Trypanosoma brucei strains.

Author

Borst P, Fase-Fowler F, Hoeijmakers JH, and Frasch AC

Subjects
Animals, Base Sequence, Binding Sites, Biological Evolution, Chromosome Mapping, DNA Restriction Enzymes, Molecular Weight, Species Specificity, DNA, Circular genetics, DNA, Mitochondrial genetics, Trypanosoma brucei brucei genetics
Abstract

We have compared a total of 30 recognition sites for eight restriction endonucleases on the 20-kilobase-pair maxi-circle of kinetoplast DNAs from five different Trypanosoma brucei strains. In addition to three polymorphic sites were have found a 5 kilobase-pair region that is not cleaved by any of the eight enzymes and that varies in size over 1 kilobase pair in the strains analysed. Mini-circles from these five strains, digested with endonuclease TaqI or MboII, yield very complex fragment patterns, showing that extensive mini-circle sequence heterogeneity is a common characteristic of these T. brucei strains. The size distribution of mini-circle fragments in these digests was identical for different clones of the 427 strain, but very different for mini-circles from different strains. These results show that maxi-circle sequence is conserved, whereas mini-circle sequence is not. Restriction digests of maxi-circles could be useful in determining how closely two Trypanosoma strains are related, whereas mini-circle digests can serve as sensitive tags for individual strains.

Published
1980
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9. How proteins get into microbodies (peroxisomes, glyoxysomes, glycosomes).

Author

Borst P

Subjects
Acetyl-CoA C-Acyltransferase physiology, Acyl-CoA Oxidase, Amino Acid Sequence, Animals, Base Sequence, Biological Evolution, Carnitine O-Acetyltransferase physiology, Catalase physiology, Endoplasmic Reticulum metabolism, Facial Bones abnormalities, Glycolysis, Humans, In Vitro Techniques, Isoelectric Point, Kidney Diseases, Cystic metabolism, Liver Diseases congenital, Malate Dehydrogenase physiology, Mitochondria metabolism, Oxidoreductases physiology, Phosphoglycerate Kinase genetics, Protoplasts metabolism, Skull abnormalities, Triose-Phosphate Isomerase analysis, Trypanosoma metabolism, Microbodies metabolism, Proteins metabolism
Abstract

All microbody proteins studies, including one microbody membrane protein, are made on free polysomes and imported post-translationally. This holds for animal tissues, plants, and fungi. The majority of microbody protein sub-units are synthesized in a form not detectably different from mature sub-units. In five cases a larger precursor protein has been found. The position of the extra piece in this precursor is not known. In two of the five cases, processing of the precursor is not coupled to import; in the other three this remains to be determined. It is not even known whether information in the prepiece contributes to topogenesis, or serves other purposes. Microbody preparations from Neurospora, plant tissue and rat liver can take up some newly synthesized microbody proteins in vitro. In most cases uptake is inefficient. No special requirements for uptake have been established and whether a receptor is involved is not yet known. Several examples have been reported of peroxisomal enzymes with a counterpart in another cell compartment. With the exception of catalase, no direct evidence is available in any of these cases for two isoenzymes specified by the same gene. In the Zellweger syndrome, a lethal hereditary disease of man, characterized by a lack of peroxisomes, the levels of several enzymes of lipid metabolism are strongly decreased. In contrast, D-amino-acid oxidase, L-alpha-hydroxyacid oxidase and catalase levels are normal. The catalase resides in the cytosol. Since there is no separate gene for cytosolic catalase, the normal catalase levels in Zellweger cells show that some peroxisomal enzymes can mature and survive stably in the cytosol. It is possible that maturation of the peroxisomal enzyme in the cytoplasm can account for the finding of cytosolic catalase in some normal mammalian cells. The glycosomes of trypanosomes are microbodies that contain a glycolytic system. Comparison of the glycosomal phosphoglycerate kinase with its cytosolic counterpart has shown that these isoenzymes are 93% homologous in amino-acid sequence, but less than 50% homologous to the corresponding enzymes of yeast and mammals. This implies that few alterations are required to direct a protein into microbodies. This interpretation is supported by the evidence for homology between some microbody and mitochondrial isoenzymes in other organisms mentioned under point 4. The major changes of the glycosomal phosphoglycerate kinase relative to the cytosolic enzyme are a large increase in positive charge and a C-terminal extension of 20 amino acids.(ABSTRACT TRUNCATED AT 400 WORDS)

Published
1986
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10. The structure of Tetrahymena pyriformis mitochondrial DNA. I. Strain differences and occurrence of inverted repetitions.

Author

Goldbach RW, Arnberg AC, van Bruggen EF, Defize J, and Borst P

Subjects
Animals, DNA Replication, Microscopy, Electron, Molecular Weight, Nucleic Acid Denaturation, Nucleic Acid Hybridization, Species Specificity, DNA, Mitochondrial, Tetrahymena pyriformis
Abstract

We have analysed the structure of the mtDNAs of six amicronucleate Tetrahymena pyriformis strains, belonging to at least four phenosets, as defined by Borden et al. (Borden, D., Whitt, G.S. and Nanney, D.L. (1973) J. Protozool. 20, 693--700). 2. The mtDNAs of all strains are linear, but they differ in size, in their fragmentation by endonuclease EcoRI and in overall sequence; less than 20% sequence homology was found by DNA-DNA hybridization in all combinations tested, except for the mtDNAs from strains T and ST which are indistinguishable. 3. In spite of these marked sequence differences the mtDNAs of all strains share two structural peculiarities: ragged (gnawed) duplex ends and a duplication-inversion, which varies in length between 0.3 and 1.2 micrometer, depending on the strain. In four strains the duplication-inversion is terminal, allowing formation of single-stranded DNA circles with a duplex tail; in two strains it is subterminal. 4. The ragged ends and sub-terminal position of the duplication-inversion in some of the Tetrahymena mtDNAs do not fit any of the current models for the replication of linear mtDNAs.

Published
1977
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12. The size of the repeating unit of the repetitive mitochondrial DNA from a "low-density" petite mutant of yeast.

Author

Mol JN, Borst P, Grosveld FG, and Spencer JH

Subjects
Animals, Autoradiography, Base Sequence, Centrifugation, Density Gradient, Chromatography, DEAE-Cellulose, Chromatography, Thin Layer, Deoxyribonucleotides analysis, Electrophoresis, Paper, Electrophoresis, Polyacrylamide Gel, Endonucleases, Ethidium pharmacology, Molecular Weight, Mutation, Nucleic Acid Denaturation, Phosphoric Diester Hydrolases, Phosphorus Radioisotopes, Saccharomyces cerevisiae drug effects, Snakes, Venoms, DNA, Mitochondrial analysis, Saccharomyces cerevisiae analysis
Published
1974
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13. Properties of mitochondrial DNA from Kluyveromyces lactis.

Author

Sanders JP, Weijers PJ, Groot GS, and Borst P

Subjects
Animals, Centrifugation, Density Gradient, Ethidium, Kinetics, Microscopy, Electron, Molecular Weight, Nucleic Acid Conformation, Nucleic Acid Denaturation, Nucleic Acid Hybridization, Nucleic Acid Renaturation, Phosphorus Radioisotopes, Saccharomyces, Species Specificity, Temperature, Tetrahymena pyriformis, Ascomycota analysis, DNA, Circular analysis, DNA, Mitochondrial analysis, Saccharomycetales analysis
Published
1974
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14. The organization of ribosomal RNA genes in the mitochondrial DNA of Tetrahymena pyriformis strain ST.

Author

Goldbach RW, Borst P, Bollen-de Boer JE, and van Bruggen EF

Subjects
Animals, DNA Restriction Enzymes, Microscopy, Electron, Molecular Weight, Nucleic Acid Denaturation, Nucleic Acid Hybridization, DNA, Mitochondrial metabolism, RNA, Ribosomal biosynthesis, Tetrahymena pyriformis metabolism, Transcription, Genetic
Abstract

1. We have constructed a physical map of the mtDNA of Tetrahymena pyriformis strain ST using the restriction endonucleases EcoRI, PstI, SacI, HindIII and HhaI. 2. Hybridization of mitochondrial 21 S and 14 S ribosomal RNA to restriction fragments of strain ST mtDNA shows that this DNA contains two 21-S and only one 14-S ribosomal RNA genes. By S1 nuclease treatment of briefly renatured single-stranded DNA the terminal duplication-inversion previously detected in this DNA (Arnberg et al. (1975) Biochim. Biophys. Acta 383, 359--369) has been isolated and shown to contain both 21-S ribosomal RNA genes. 14 S ribosomal RNA hybridizes to a region in the central part of the DNA, about 8000 nucleotides or 20% of the total DNA length apart from the nearest 21 S ribosomal RNA gene. 3. We have confirmed this position of the three ribosomal RNA genes by electron microscopical analysis of DNA . RNA hybrid molecules and R-loop molecules. 4. Hybridization of 21 S ribosomal RNA with duplex mtDNA digested either with phage lambda-induced exonuclease or exonuclease III of Escherichia coli, shows that the 21-S ribosomal RNA genes are located on the 5'-ends of each DNA strand. Electron microscopy of denaturated mtDNA hybridized with a mixture of 14-S and 21-S ribosomal RNAs show that the 14 S ribosomal RNA gene has the same polarity as the nearest 21 S ribosomal RNA gene. 5. Tetrahymena mtDNA is (after Saccharomyces mtDNA) the second mtDNA in which the two ribosomal RNA cistrons are far apart and the first mtDNA in which one of the ribosomal RNA cistrons is duplicated.

Published
1978
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15. Sequence heterogeneity of the mini-circles of kinetoplast DNA of Crithidia luciliae and evidence for the presence of a component more complex than mini-circle DNA in the kinetoplast network.

Author

Kleisen CM and Borst P

Subjects
Animals, Base Sequence, Deoxyribonucleases, Endonucleases, Molecular Weight, DNA, Circular analysis, Eukaryota analysis
Abstract

Exhaustive digestion of the 0.76 mum mini-circles of the kinetoplast DNA from Crithidia luciliae with endonuclease HapII yields at least 37 fragments with an added molecular weight of at least 24-10(6), i.e. about 16 times that of the mini-circle. The DNA isolated from cloned cells yields the same digestion pattern. Endonuclease EcoRI cuts only part of the mini-circles in each network. This proves that mini-circles are not homogeneous in sequence. Digestion of total kinetoplast DNA with HapII yields, in addition to the mini-circle fragments, 7 fragments with an added molecular weight of 16-10(6). We conclude that these are derived from a minor component of the network, with a higher sequence complexity than the mini-circles.

Published
1975
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16. The structure of kinetoplast DNA. I. Properties of the intact multi-circular complex from Crithidia luciliae.

Author

Kleisen CM, Borst P, and Weijers PJ

Subjects
Centrifugation, Density Gradient, Chemical Phenomena, Chemistry, DNA isolation & purification, DNA, Circular isolation & purification, Deoxyribonucleases pharmacology, Nucleic Acid Conformation, Nucleic Acid Denaturation drug effects, Ribonucleases pharmacology, Subcellular Fractions analysis, Temperature, DNA analysis, DNA, Circular analysis, Eukaryota analysis
Abstract

We have developed a modified isolation procedure that yields kinetoplast DNA networks containing more than 90% closed circular DNA, as judged by two criteria: (a) In 0.15 M NaCl/0.015 M sodium citrate (pH 7.0), less than 10% of the intact kinetoplast DNA melts in the temperature region of sonicated kinetoplast DNA. In 7.2 M NaCl04 the kinetoplast DNA melts with a Tm 26 degrees C higher than sonicated kinetoplast DNA. Even after complete melting in 7.2 M NaClO4 at 90 degrees C, the network remains intact, as judged by regain of hypochromicity on cooling and analysis in CsCl containing propidium dixodide. (b) In alkaline sucrose gradients more than 90% of the kinetoplast DNA sediments in a single peak. 2. In CsCl gradients containing ethidium bromide of propidium diiodide intact kinetoplast DNA gives a single uni-modal band showing an extremely restricted dye uptake. From the position of the bank relative to the bands of PM2 DNA, the superhelix density of these networks is calculated to be +3.9 twists per 1000 base pairs. The superhelix density of closed mini-circles, efficiently liberated from the networks by shear in a French press, is -0.5 twists per 1000 base pairs. We attribute the high superhelix density (the highest yet observed in any DNA) of intact networks to their compact, highly catenated structure, leading to an additional constraint on dye uptake, superimposed on the restriction due to closed circularity.

Published
1975

17. The structure of Tetrahymena pyriformis mitochondrial DNA. II. The complex structure of strain GL mitochondrial DNA.

Author

Arnberg AC, Goldbach RW, van Bruggen EF, and Borst P

Subjects
Animals, Microscopy, Electron, Molecular Weight, Nucleic Acid Conformation, Nucleic Acid Denaturation, Nucleic Acid Renaturation, DNA, Mitochondrial isolation & purification, Tetrahymena pyriformis
Abstract

1. Isolated mtDNA from Tetrahymena pyriformis strain GL is a linear duplex molecule with an average molecular weight of 32.6 - 10(6) and without internal gaps or breaks. Denaturation of this DNA results in single strands with a duplex hairpin at one end. The length of this hairpin varies between 0 and 5 micrometer within one preparation. 2. Uder renaturation conditions the single strands with hairpins are able to circularize in two ways, depending on the length of the hairpin. Circularization is also observed after partial digestion with exonuclease III of native strain GL mtDNA. 3. All these data fit a model (see Fig.2) in which the DNA is heterogeneous in length at both ends. At the left end a 10-micrometer duplication-inversion is present; part of this duplication-inversion is complementary to a region at the right end of the molecule. 4. The analogy between the structural peculiarities of strain GL mtDNA and of some linear viral DNAs is stressed.

Published
1977
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18. Intermediates in the replication of the mitochondrial DNA of Tetrahymena pyriformis.

Author

Clegg RA, Borst P, and Weijers PJ

Subjects
Animals, Centrifugation, Density Gradient, Chromatography, DEAE-Cellulose, DNA, Mitochondrial isolation & purification, DNA, Single-Stranded biosynthesis, Isotope Labeling, Microscopy, Electron, Mitochondria metabolism, Molecular Weight, Nucleic Acid Conformation, Phosphorus Radioisotopes, Tetrahymena pyriformis cytology, Thymidine metabolism, Time Factors, Tritium, DNA Replication, DNA, Mitochondrial biosynthesis, Tetrahymena pyriformis metabolism
Published
1974
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21. RNA from the insect trypanosome Crithidia luciliae contains transcripts of the maxi-circle and not of the mini-circle component of kinetoplast DNA.

Author

Hoeijmakers JH and Borst P

Subjects
Animals, Molecular Weight, Nucleic Acid Hybridization, Ribonucleases, Crithidia metabolism, DNA, Circular metabolism, RNA biosynthesis, Transcription, Genetic
Abstract

We have hybridized total cellular RNA of Crithidia luciliae with the kinetoplast DNA of this organism. To allow the discrimination of DNA from mini-circles (2300 base pairs) and maxi-circles (33 000 base pairs), kinetoplast DNA was digested with restriction endonucleases and the fragments were separated by electrophoresis through an agarose gel and transferred to nitrocellulose filters by blotting. No mini-cricle transcripts were found under conditions where maxi-circle fragments showed extensive and specific hybridization. Since maxi-circle sequences are present at less than 1% of the concentration of mini-circle sequences, we conclude that mini-circles may not be transcribed at all. Predominant hybridization with the maxi-circle fragments is obtained with a segment of only 2300--2500 base pairs. The possibility that this segment codes for unusually small mitochondrial ribosomal RNAs is discussed.

Published
1978
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22. The kinetoplast DNA of Trypanosoma equiperdum.

Author

Frasch AC, Hajduk SL, Hoeijmakers JH, Borst P, Brunel E, and Davison J

Subjects
Animals, Base Sequence, Centrifugation, Density Gradient, DNA Restriction Enzymes, Electrophoresis, Agar Gel, Microscopy, Electron, Molecular Weight, Nucleic Acid Hybridization, Trypanosoma analysis, Trypanosoma brucei brucei analysis, Cell Nucleus analysis, DNA, Circular
Abstract

We have analyzed the kinetoplast DNA for Trypanosoma equiperdum (American Type Culture Collection 30019) and two dyskinetoplastic strains derived from it. The DNA networks from the kinetoplastic strain are made up of catenated mini-circles and maxi-circles, like the networks from the closely-related Trypanosoma brucei. The mini-circles of T. equiperdum lack the pronounced sequence heterogeneity of T. brucei mini-circles, as shown by the fragment distribution of restriction digests and by the predominance of well-matched duplexes in electron micrographs of renatured DNA. The electrophoretic analysis of kinetoplast DNA digested with various restriction endonucleases shows the maxi-circle of T. equiperdum to consist of circular DNA molecules of 8.4 x 10(6) daltons, without size or sequence heterogeneity or repetitious segments. A comparison of the sequence by restriction endonuclease fragmentation and hybridization shows extensive sequence homology. The size difference between both maxi-circles is due to the deletion of one continuous segment of 5.10(6) daltons. In the two dyskinetoplastic strains, we cannot detect DNA sequences that hybridize with kinetoplast DNA from T. brucei or from the kinetoplastic strain of T. equiperdum. In one of these strains, a 'low-density' DNA fraction contained a simple sequence DNA, cleaved by restriction endonuclease HindIII into fragments of 180 base-pairs and multimers of this. The relation of this DNA to kinetoplast DNA, if any, is unknown.

Published
1980
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23. The maxi-circle of Trypanosoma brucei kinetoplast DNA.

Author

Borst P and Fase-Fowler F

Subjects
Animals, Base Sequence, DNA Restriction Enzymes, Chromosome Mapping, DNA, Circular genetics, Trypanosoma brucei brucei genetics
Abstract

We have constructed a fragment map of the maxi-circle component from kinetoplast DNA networks of Trypanosoma brucei brucei (East African Trypanosomiasis Research Organization strain No. 427), using restriction endonucleases PstI, HapII, EcoRI, BglI, HindIII, HhaI, SstI, XbaI, HaeIII and Sau-96I. Although the 20 kilo-base pair map contains 30 fragments, there is a 6.5 kilo-base pair 'silent' segment which lacks recognition sites for any of these enzymes. In CsCl intact kinetoplast DNA has a buoyant density of 1.690 g/cm3, whereas a kinetoplast DNA fraction enriched in maxi-circle sequences contains an additional component at 1.682 g/cm3. The possibility that the 'silent' segment is very rich in A + T is discussed.

Published
1979
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24. Peroxisome biogenesis revisited.

Author

Borst P

Subjects
Amino Acid Sequence, Animals, Biological Evolution, Enzymes genetics, Genes, Humans, Luciferases genetics, Molecular Sequence Data, Microbodies metabolism
Published
1989
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25. Conservation of the sequence and position of the ribosomal RNA genes in Tetrahymena pyriformis mitochondrial DNA.

Author

Goldbach RW, Bollen-de Boer JE, van Bruggen EF, and Borst P

Subjects
Animals, Base Sequence, Kinetics, Microscopy, Electron, Nucleic Acid Conformation, Nucleic Acid Denaturation, Nucleic Acid Hybridization, Transcription, Genetic, DNA, Mitochondrial metabolism, RNA, Ribosomal biosynthesis, Tetrahymena pyriformis metabolism
Abstract

1. We have done cross-hybridizations between the mitochondrial ribosomal RNAs and DNAs from strains ST and PP of Tetrahymena pyriformis. DNA . ribosomal RNA hybrid formation can be completely prevented by an excess of the heterologous ribosomal RNA and the heterologous hybrids melt 6 degrees C below the homologous hybrids. This shows that the ribosomal RNA cistrons can account for the 5% cross-hybridization previously observed between the mtDNAs of strains PP and ST (Goldbach et al. (1977) Biochim. Biophys. Acta 477, 37--50). 2. By electron microscopy of DNA . ribosomal RNA hybrids we have determined the position of the ribosomal RNA cistrons on the mtDNA of strain GL, a mtDNA which we have shown to contain a sub-terminal 1 micron duplication-inversion and a terminal palindrome at one end which varies in length from 0 to 5 micron and which includes the 1 micron duplication-inversion (Arnberg et al. (1977) Biochim. Biophys. Acta 477, 51--69). The 21 S ribosomal RNA cistron overlaps the 1 micron duplication-inversion and as a result two or three cistrons are present, depending on the size of the terminal palindrome. Only one 14 S ribosomal RNA cistron is found, located about 10 000 base pairs away from the nearest 21 S cistron is found, located about 10 000 base pairs away from the nearest 21 S cistron and with the same polarity as this cistron. 3. We conclude from these results and those in the preceding paper that the sequence of the ribosomal RNAs and the position of the ribosomal RNA genes in the mtDNA is strongly conserved in Tetrahymena. Possible reasons for the duplication of 21-S ribosomal RNA genes and the terminal heterogeneity of Tetrahymena mtDNA are discussed.

Published
1978
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26. An analysis by electron microscopy of intermediates in the replication of linear Tetrahymena mitochondrial DNA.

Author

Arnberg AC, Van Bruggen EF, Clegg RA, Upholt WB, and Borst P

Subjects
Animals, Bacteriophages, Centrifugation, Density Gradient, DNA Viruses, DNA, Single-Stranded, DNA, Viral, Microscopy, Electron, Models, Biological, Molecular Weight, Nucleic Acid Conformation, Pseudomonas, DNA Replication, DNA, Mitochondrial biosynthesis, Tetrahymena pyriformis metabolism
Published
1974
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27. DNA synthesis by isolated mitochondria. I. Effect of inhibitors and characterization of the product.

Author

ter Schegget J and Borst P

Subjects
Adenosine Triphosphate metabolism, Animals, Antimycin A pharmacology, Benzene Derivatives pharmacology, Carbon Isotopes, Cattle, Centrifugation, Density Gradient, Chickens, Cyanides pharmacology, DNA pharmacology, Deoxyribonucleases pharmacology, Deoxyribonucleotides metabolism, Deoxyribonucleotides pharmacology, Dinitrophenols pharmacology, Ethanol pharmacology, Kinetics, Magnesium pharmacology, Metabolism drug effects, Mitochondria, Liver drug effects, Nalidixic Acid pharmacology, Nucleic Acid Conformation, Phenanthridines pharmacology, Thymidine metabolism, Thymus Gland, Tritium, DNA Replication, Mitochondria, Liver metabolism
Published
1971

28. Search for mitochondrial DNA sequences in chick nuclear DNA.

Author

Tabak HF, Borst P, and Tabak AJ

Subjects
Animals, Base Sequence, Centrifugation, Density Gradient, Chickens, DNA analysis, DNA, Circular analysis, DNA, Mitochondrial analysis, Erythrocytes analysis, Erythrocytes cytology, Haploidy, Mitochondria, Liver analysis, Nucleic Acid Hybridization, RNA biosynthesis, Rats, Spectrophotometry, Ultraviolet, Temperature, Time Factors, Transcription, Genetic, Tritium, Cell Nucleus analysis, DNA blood
Published
1973

29. The gel electrophoresis of DNA.

Author

Aaij C and Borst P

Subjects
Animals, Coliphages, DNA, Viral isolation & purification, Deoxyribonucleases, Electrophoresis, Ethidium, Methods, Molecular Weight, Rats, DNA isolation & purification
Published
1972
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30. Circular mitochondrial DNA.

Author

van Bruggen EF, Borst P, Ruttenberg GJ, Gruber M, and Kroon AM

Subjects
Animals, Chemical Phenomena, Chemistry, In Vitro Techniques, Microscopy, Electron, Poultry, Cell Nucleus, DNA, Liver cytology, Mitochondria
Published
1966
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32. Mitochondrial DNA from cytoplasmic petite mutants of yeast.

Author

Hollenberg CP, Borst P, and van Bruggen EF

Subjects
Centrifugation, Density Gradient, Ethidium pharmacology, Genetics, Microbial, Microscopy, Electron, Mitochondria metabolism, Nucleic Acid Denaturation, Saccharomyces cerevisiae drug effects, Saccharomyces cerevisiae metabolism, Saccharomyces cerevisiae pathogenicity, Temperature, Time Factors, DNA metabolism, Mitochondria drug effects, Mutation, Phenanthridines pharmacology, Saccharomyces drug effects
Published
1972
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33. The synthesis and utilization of dCDP-diglyceride by a mitochondrial fraction from rat liver.

Author

ter Schegget J, van den Bosch H, van Baak MA, Hostetler KY, and Borst P

Subjects
Adenosine Triphosphate metabolism, Animals, Chickens, Chromatography, Thin Layer, Cytosine Nucleotides chemical synthesis, Cytosine Nucleotides pharmacology, Deoxyribonucleotides metabolism, Deoxyribonucleotides pharmacology, Glycerides biosynthesis, Glycerides chemical synthesis, Glycerophosphates biosynthesis, Glycerophosphates metabolism, Kinetics, Mitochondria, Liver drug effects, Phospholipids biosynthesis, Rats, Thymine Nucleotides metabolism, Tritium, Cytosine Nucleotides biosynthesis, Cytosine Nucleotides metabolism, Glycerides metabolism, Mitochondria, Liver metabolism
Published
1971
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34. A study of minor RNA components of rat-liver microsomes.

Author

Agsteribbe CA, Borst P, and Aaij C

Subjects
Animals, Bile Acids and Salts pharmacology, Deoxyribonucleases, Electrophoresis, Hepatectomy, Liver cytology, Magnesium pharmacology, Manganese pharmacology, Molecular Weight, Orotic Acid metabolism, Phosphates metabolism, Phosphorus Isotopes, Pronase, Rats, Ribonucleases, Ribosomes analysis, Subcellular Fractions drug effects, Subcellular Fractions metabolism, Time Factors, Tritium, Microsomes, Liver metabolism, RNA biosynthesis, RNA isolation & purification, RNA metabolism
Published
1971
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37. Formation of self-complementary RNA on a single strand of DNA by RNA polymerase from Escherichia coli.

Author

Tabak HF and Borst P

Subjects
Animals, Centrifugation, Density Gradient, Coliphages, DNA isolation & purification, DNA, Single-Stranded, DNA, Viral, Deoxyribonucleases, Hot Temperature, Immune Sera, Magnesium, Manganese, Mitochondria, Liver, Nucleic Acid Denaturation, Nucleic Acid Hybridization, Pancreas enzymology, Poly I-C, Precipitin Tests, RNA, Viral chemical synthesis, Rats, Ribonucleases, Temperature, Templates, Genetic, Escherichia coli enzymology, RNA chemical synthesis, RNA Nucleotidyltransferases
Published
1971
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38. The number of superhelical turns in mitochondrial DNA.

Author

Ruttenberg GJ, Smit EM, Borst P, and van Bruggen EF

Subjects
Animals, Chemical Phenomena, Chemistry, Physical, Chickens, Microscopy, Electron, Spectrophotometry, Ultracentrifugation, Ultraviolet Rays, DNA analysis, DNA, Viral analysis, Liver analysis, Mitochondria analysis, Polyomavirus analysis
Published
1968
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40. Mitochondrial DNA. II. Sedimentation analysis and electron microscopy of mitochondrial DNA from chick liver.

Author

Borst P, van Bruggen EF, Ruttenberg GJ, and Kroon AM

Subjects
Animals, Bacteriophages analysis, Centrifugation, Density Gradient, Centrifugation, Zonal, Chemical Phenomena, Chemistry, Physical, Chickens, DNA, Viral analysis, Hot Temperature, Microscopy, Electron, Molecular Weight, Nucleic Acid Denaturation, Photomicrography, DNA analysis, Mitochondria, Liver analysis
Published
1967
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42. DNA synthesis by isolated mitochondria. V. Electron microscopy of replicative intermediates.

Author

Arnberg AC, van Bruggen EF, Flavell RA, and Borst P

Subjects
Animals, Centrifugation, Density Gradient, Chickens, DNA, Mitochondrial analysis, DNA, Mitochondrial biosynthesis, DNA, Single-Stranded analysis, Ethidium, Microscopy, Electron, Models, Biological, Nucleic Acid Conformation, Phosphorus Isotopes, DNA Replication, Mitochondria, Liver metabolism
Published
1973
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43. The binding of polyribonucleotides to the complementary strands of mitochondrial DNA.

Author

Borst P and Ruttenberg GJ

Subjects
Adenine Nucleotides, Animals, Base Sequence, Binding Sites, Centrifugation, Density Gradient, Cold Temperature, Cytosine Nucleotides, Drug Stability, Guanine Nucleotides, Hydrogen-Ion Concentration, Inosine Nucleotides, Models, Structural, Nucleic Acid Conformation, Nucleic Acid Denaturation, Rats, Ribonucleotides, Uracil Nucleotides, DNA isolation & purification, Mitochondria analysis, Polynucleotides
Published
1972
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44. The glutamate dehydrogenases of yeast: extra-mitochondrial enzymes.

Author

Hollenberg CP, Riks WF, and Borst P

Subjects
Aspartate Aminotransferases metabolism, Electron Transport Complex IV metabolism, Glucosephosphate Dehydrogenase metabolism, Hydro-Lyases metabolism, Ketoglutaric Acids, Malate Dehydrogenase metabolism, Mitochondria metabolism, NAD, NADP, Pyruvates, Saccharomyces cytology, Cytoplasm enzymology, Glutamate Dehydrogenase metabolism, Saccharomyces enzymology
Published
1970
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46. DNA synthesis by isolated mitochondria. II. Detection of product DNA hydrogen-bonded to closed duplex circles.

Author

ter Schegget J and Borst P

Subjects
Animals, Bromodeoxyuridine metabolism, Carbon Isotopes, Centrifugation, Density Gradient, Chickens, Chromatography, DNA isolation & purification, Formaldehyde, Hot Temperature, Hydrogen-Ion Concentration, Hydroxides, Hydroxyapatites, Models, Biological, Models, Structural, Nucleic Acid Conformation, Nucleic Acid Denaturation, Nucleic Acid Hybridization, Potassium, Temperature, Thymidine metabolism, Tritium, Vibration, DNA Replication, Mitochondria, Liver metabolism
Published
1971

48. Transcription of Tetrahymena mitochondrial DNA in vivo.

Author

Schutgens RB, Reijnders L, Hoekstra SP, and Borst P

Subjects
Animals, Centrifugation, Density Gradient, DNA biosynthesis, DNA isolation & purification, DNA, Mitochondrial metabolism, DNA, Single-Stranded, Escherichia coli, Genetics, Molecular Weight, Nucleic Acid Denaturation, Nucleic Acid Hybridization, Phosphates metabolism, Phosphorus Isotopes, Polynucleotides, RNA, Bacterial, RNA, Ribosomal biosynthesis, RNA, Ribosomal isolation & purification, Thymidine metabolism, Transcription, Genetic, Tritium, DNA metabolism, Tetrahymena pyriformis metabolism
Published
1973
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49. Mitochondrial antibiotic resistance in yeast: ribosomal mutants resistant to chloramphenicol, erythromycin and spiramycin.

Author

Grivell LA, Netter P, Borst P, and Slonimski PP

Subjects
Carbon Isotopes, Chromatography, Ion Exchange, Chromosome Mapping, Diploidy, Drug Resistance, Microbial, Electrophoresis, Polyacrylamide Gel, Fungal Proteins biosynthesis, Genetics, Microbial, Lincomycin pharmacology, Mitochondria drug effects, Mutation, Phenotype, RNA, Ribosomal, Saccharomyces cerevisiae cytology, Saccharomyces cerevisiae drug effects, Saccharomyces cerevisiae metabolism, Spectrophotometry, Ultraviolet, Tritium, Chloramphenicol pharmacology, Erythromycin pharmacology, Leucomycins pharmacology, Mitochondria metabolism, Ribosomes metabolism
Published
1973
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