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J O Andersson

Explore the profile of J O Andersson including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 15
Citations 1039
Followers 0
Related Specialties
Biology
Biochemistry
Molecular Biology
Top 10 Co-Authors
S G Andersson
M Stromqvist
L Hansson
T Johansson
K Enquist
C L Nesbo
M Bystrom
W F Doolittle
J Deinum
C Otter
Published In
Biochim Biophys Acta
Mol Biol Evol
Lakartidningen
Transgenic Res
Curr Opin Genet Dev
Affiliations
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Recent Articles
1.
Lateral gene transfer in eukaryotes
Andersson J
Cell Mol Life Sci . 2005 Mar; 62(11):1182-97. PMID: 15761667
Lateral gene transfer -- the transfer of genetic material between species -- has been acknowledged as a major mechanism in prokaryotic genome evolution for some time. Recently accumulating data indicate...
2.
How big is the iceberg of which organellar genes in nuclear genomes are but the tip?
Doolittle W, Boucher Y, Nesbo C, Douady C, Andersson J, Roger A
Philos Trans R Soc Lond B Biol Sci . 2003 Feb; 358(1429):39-57; discussion 57-8. PMID: 12594917
As more and more complete bacterial and archaeal genome sequences become available, the role of lateral gene transfer (LGT) in shaping them becomes more and more clear. Over the long...
3.
Genomics. Are there bugs in our genome?
Andersson J, Doolittle W, Nesbo C
Science . 2001 May; 292(5523):1848-50. PMID: 11358998
No abstract available.
4.
Pseudogenes, junk DNA, and the dynamics of Rickettsia genomes
Andersson J, Andersson S
Mol Biol Evol . 2001 Apr; 18(5):829-39. PMID: 11319266
Studies of neutrally evolving sequences suggest that differences in eukaryotic genome sizes result from different rates of DNA loss. However, very few pseudogenes have been identified in microbial species, and...
5.
Immunological assay for the determination of procarboxypeptidase U antigen levels in human plasma
Stromqvist M, Schatteman K, Leurs J, Verkerk R, Andersson J, Johansson T, et al.
Thromb Haemost . 2001 Feb; 85(1):12-7. PMID: 11204563
The importance of carboxypeptidase U as a novel regulator of the fibrinolytic rate has attracted a lot of interest recently. In the present work, an ELISA was developed using polyclonal...
6.
Evolutionary genomics: is Buchnera a bacterium or an organelle?
Andersson J
Curr Biol . 2000 Dec; 10(23):R866-8. PMID: 11114534
The first genome sequence of an intracellular bacterial symbiont of a eukaryotic cell has been determined. The Buchnera genome shares features with the genomes of both intracellular pathogenic bacteria and...
7.
A century of typhus, lice and Rickettsia
Andersson J, Andersson S
Res Microbiol . 2000 Jun; 151(2):143-50. PMID: 10865960
At the beginning of the 20th century, it was discovered at the Pasteur Institute in Tunis that epidemic typhus is transmitted by the human body louse. The complete genome sequence...
8.
Insights into the evolutionary process of genome degradation
Andersson J, Andersson S
Curr Opin Genet Dev . 1999 Dec; 9(6):664-71. PMID: 10607609
Studies of noncoding and pseudogene sequence diversity, particularly in Rickettsia, have begun to reveal the basic principles of genome degradation in microorganisms. Increasingly, studies of genes and genomes suggest that...
9.
Genome degradation is an ongoing process in Rickettsia
Andersson J, Andersson S
Mol Biol Evol . 1999 Sep; 16(9):1178-91. PMID: 10486973
To study reductive evolutionary processes in bacterial genomes, we examine sequences in the Rickettsia genomes which are unconstrained by selection and evolve as pseudogenes, one of which is the metK...
10.
The genome sequence of Rickettsia prowazekii and the origin of mitochondria
Andersson S, Zomorodipour A, Andersson J, Sicheritz-Ponten T, Alsmark U, Podowski R, et al.
Nature . 1998 Nov; 396(6707):133-40. PMID: 9823893
We describe here the complete genome sequence (1,111,523 base pairs) of the obligate intracellular parasite Rickettsia prowazekii, the causative agent of epidemic typhus. This genome contains 834 protein-coding genes. The...