1997
DOI: 10.1007/pl00006251
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Conserved Gene Clusters in Bacterial Genomes Provide Further Support for the Primacy of RNA

Abstract: Abstract. Five complete bacterial genome sequences have been released to the scientific community. These include four (eu)Bacteria, Haemophilus influenzae, Mycoplasma genitalium, M. pneumoniae, and Synechocystis PCC 6803, as well as one Archaeon, Methanococcus jannaschii. Features of organization shared by these genomes are likely to have arisen very early in the history of the bacteria and thus can be expected to provide further insight into the nature of early ancestors. Results of a genome comparison of the… Show more

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Cited by 56 publications
(39 citation statements)
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“…Hence there is a possible conflict between the organismal and cellular levels of selection: the multicellular organism would benefit from a redundant (flatter) fitness landscape, whereas the cells of which the organism is composed would benefit from an antiredundant (steeper) landscape. Interestingly, in some cases this conflict has a synergistic resolution: antiredundancy at the cellular level is an effective means of ensuring redundancy and robustness at the Gene duplication (14) Overlapping reading frames (9) Neutral codon usage (25) Nonconservative codon bias (26) -Gene silencing (27) Polyploidy (28) Haploidy Multiple regulatory elements for n genes (29) Single regulatory element for n genes Chaperone and heat shock proteins (30,31) Checkpoint genes promoting repair (32) Checkpoint genes inducing apoptosis (33) Telomerase induction (34) Loss of telomerase (35) Dominance (36,37) Incomplete dominance Autophagy (38,39) mRNA surveillance (40,41) Bulk transmission (42,43) Bottlenecks in transmission (44, 45) Molecular quality control (46) tRNA suppressor molecules (47) Modularity (48) Multiple organelle copies (49) Single organelle copies Parallel metabolic pathways (6,50) Serial metabolic pathways Correlated gene expression (29,51) Uncorrelated gene expression DNA error repair (52) Loss of error repair (53)(54)(55) Redundant mechanisms mask the phenotypic effect of mutations, allowing the mutations to persist in populations. We group together these mechanisms with a small s value.…”
Section: Redundancy and Levels Of Selectionmentioning
confidence: 99%
“…Hence there is a possible conflict between the organismal and cellular levels of selection: the multicellular organism would benefit from a redundant (flatter) fitness landscape, whereas the cells of which the organism is composed would benefit from an antiredundant (steeper) landscape. Interestingly, in some cases this conflict has a synergistic resolution: antiredundancy at the cellular level is an effective means of ensuring redundancy and robustness at the Gene duplication (14) Overlapping reading frames (9) Neutral codon usage (25) Nonconservative codon bias (26) -Gene silencing (27) Polyploidy (28) Haploidy Multiple regulatory elements for n genes (29) Single regulatory element for n genes Chaperone and heat shock proteins (30,31) Checkpoint genes promoting repair (32) Checkpoint genes inducing apoptosis (33) Telomerase induction (34) Loss of telomerase (35) Dominance (36,37) Incomplete dominance Autophagy (38,39) mRNA surveillance (40,41) Bulk transmission (42,43) Bottlenecks in transmission (44, 45) Molecular quality control (46) tRNA suppressor molecules (47) Modularity (48) Multiple organelle copies (49) Single organelle copies Parallel metabolic pathways (6,50) Serial metabolic pathways Correlated gene expression (29,51) Uncorrelated gene expression DNA error repair (52) Loss of error repair (53)(54)(55) Redundant mechanisms mask the phenotypic effect of mutations, allowing the mutations to persist in populations. We group together these mechanisms with a small s value.…”
Section: Redundancy and Levels Of Selectionmentioning
confidence: 99%
“…Early comparisons of sequenced genomes detected little long-range conservation in gene order (Mushegan and Koonin 1996); but overlaid on this pattern, there are several gene clusters and gene pairs (mostly involving ribosomal proteins) maintained in all bacterial genomes (Siefert et al 1997, Dandekar et al 1998, Wachterhauser 1998, Wolf et al 2001). Conservation of gene order seems to reflect the evolutionary distance between organisms (Tamames 2000, Wolf et al 2001), but it evolves faster than gene contents Bork 1998, Korbel et al 2002), and its use as a phylogentic marker should be limited to comparisons of rather closely related genomes (Suyama and Bork 2001).…”
Section: Looking Beyond Sequence Evolutionmentioning
confidence: 99%
“…Several comparative studies of bacterial, archaeal, and eukaryotic genomes have concluded that, in general, gene order is not conserved (Himmelreich et al 1997;Kolstø 1997;Koonin and Galperin 1997;Siefert et al 1997;Watanabe et al 1997;Dandekar et al 1998;Rocha 2008). In stark contrast, gene order within virus orders and families is often conserved.…”
mentioning
confidence: 99%