Chelsea Loree Salvado scite author profile

Chelsea Loree Salvado

4Publications

19Citation Statements Received

31Citation Statements Given

How they've been cited

How they cite others

125

Affiliations

Monash University, Monash Institute of Medical Research

Publications

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The Clostridium perfringens TetA(P) efflux protein contains a functional variant of the Motif A region found in major facilitator superfamily transport proteins

Bannam

Johanesen

Salvado

et al. 2004

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The Clostridium perfringens tetracycline resistance protein, TetA(P), is an inner-membrane protein that mediates the active efflux of tetracycline from the bacterial cell. This protein comprises 420 aa and is predicted to have 12 transmembrane domains (TMDs). Comparison of the TetA(P) amino acid sequence to that of several members of the major facilitator superfamily (MFS) identified a variant copy of the conserved Motif A. This region consists of the sequence E 59 xPxxxxxDxxxRK 72 and is located within the putative loop joining TMDs 2 and 3 in the predicted structural model of the TetA(P) protein. To study the functional importance of the conserved residues, site-directed mutagenesis was used to construct 17 point mutations that were then analysed for their effect on tetracycline resistance and their ability to produce an immunoreactive TetA(P) protein. Changes to the conserved Phe-58 residue were tolerated, whereas three independent substitutions of Pro-61 abolished tetracycline resistance. Examination of the basic residues showed that Arg-71 is required for function, whereas tetracycline resistance was retained when Lys-72 was substituted with arginine. These results confirm that the region encoding this motif is important for tetracycline resistance and represents a distant version of the Motif A region found in other efflux proteins and members of the MFS family. In addition, it was shown that Glu-117 of the TetA(P) protein, which is predicted to be located in TMD4, is important for resistance although a derivative with an aspartate residue at this position is also functional.

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Microarray Technology for Mutation Analysis of Low-Template DNA Samples

Salvado

Cram

2007

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Genetic screening of infertile men

Cram

Lynch

O'Bryan

et al. 2004

Reprod. Fertil. Dev.

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Male infertility is an extraordinarily common medical condition, affecting 1 in 20 men. According to the World Health Organization, this condition is now considered to be a complex disease involving physical, genetic and environmental factors. With continuing advances in our understanding of male reproductive physiology and endocrinology, together with the availability of the complete sequence of the human genome and powerful functional genomic techniques, the stage is now set to identify the genes that are essential for spermatogenesis. Given that the process of spermatogenesis, from the germ cell to mature sperm, is complex, the challenge for research is to develop the strategies for identifying new genetic causes of idiopathic male infertility and defining genotypes associated with specific defects in semen parameters and testicular pathologies. Such information will form the basis of new genetic tests that will allow the clinician to make an accurate diagnosis of the male partner and a more informed decision about treatment options for the couple.

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New molecular strategies for the early diagnosis of cystic fibrosis

Salvado¹

2021

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