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2 research outputs found

Coccidioidal Placentitis With Normal Umbilical Artery Velocimetry

Author: Curet Luis
Izquierdo Luis
Nickisch Stephen A.
Vill Maggie A.
Wolf Gordon C.
Publication venue: Hindawi Publishing Corporation
Publication date: 01/01/1993
Field of study

Background: Disseminated coccidiomycosis during pregnancy can lead to both maternal and neonatal mortality. Placentitis is an uncommon sequelae and its effect on placental function remains speculative. The present report describes our management of such a case and describes serial umbilical artery velocimetry of an affected placenta

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PubMed Central

Molecular mechanisms for the variation of mitochondrial gene content and gene arrangement among chigger mites of the genus Leptotrombidium (Acari : Acariformes)

Author: A Scouras
C Grande
C Moritz
DH Lunt
DL Swofford
DV Lavrov
Harumi Mitani
JD Thompson
JL Boore
JL Boore
JL Boore
JL Rubenstein
JL Staton
M Dowton
M Dowton
M Ingman
M Navajas
M Nickisch-Rosenegk von
Mamoru Takahashi
Masahito Fukunaga
P Rijk de
R Shao
R Shao
R Shao
Renfu Shao
Stephen C. Barker
TJ Crease
V Macaulay
Y Kumazawa
Y Peer van de
Publication venue: 'Springer Science and Business Media LLC'
Publication date: 01/01/2006
Field of study

The gene content of a mitochondrial (mt) genome, i.e., 37 genes and a large noncoding region (LNR), is usually conserved in Metazoa. The arrangement of these genes and the LNR is generally conserved at low taxonomic levels but varies substantially at high levels. We report here a variation in mt gene content and gene arrangement among chigger mites of the genus Leptotrombidium. We found previously that the mt genome of Leptotrombidium pallidum has an extra gene for large-subunit rRNA (rrnL), a pseudo-gene for small-subunit rRNA (PrrnS), and three extra LNRs, additional to the 37 genes and an LNR typical of Metazoa. Further, the arrangement of mt genes of L. pallidum differs drastically from that of the hypothetical ancestor of the arthropods. To find to what extent the novel gene content and gene arrangement occurred in Leptotrombidium, we sequenced the entire or partial mt genomes of three other species, L. akamushi, L. deliense, and L. fletcheri. These three species share the arrangement of all genes with L. pallidum, except trnQ (for tRNA-glutamine). Unlike L. pallidum, however, these three species do not have extra rrnL or PrrnS and have only one extra LNR. By comparison between Leptotrombidium species and the ancestor of the arthropods, we propose that (1) the type of mt genome present in L. pallidum evolved from the type present in the other three Leptotrombidium species, and (2) three molecular mechanisms were involved in the evolution of mt gene content and gene arrangement in Leptotrombidium species

Crossref

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