50,778 research outputs found
Therapeutic target-site variability in Ī±1-antitrypsin characterized at high resolution
The intrinsic propensity of [alpha]1-antitrypsin to undergo conformational transitions from its metastable native state to hyperstable forms provides a motive force for its antiprotease function. However, aberrant conformational change can also occur via an intermolecular linkage that results in polymerization. This has both loss-of-function and gain-of-function effects that lead to deficiency of the protein in human circulation, emphysema and hepatic cirrhosis. One of the most promising therapeutic strategies being developed to treat this disease targets small molecules to an allosteric site in the [alpha]1-antitrypsin molecule. Partial filling of this site impedes polymerization without abolishing function. Drug development can be improved by optimizing data on the structure and dynamics of this site. A new 1.8 Ć
resolution structure of [alpha]1-antitrypsin demonstrates structural variability within this site, with associated fluctuations in its upper and lower entrance grooves and ligand-binding characteristics around the innermost stable enclosed hydrophobic recess. These data will allow a broader selection of chemotypes and derivatives to be tested in silico and in vitro when screening and developing compounds to modulate conformational change to block the pathological mechanism while preserving function
Intramolecular integration within Moloney murine leukemia virus DNA
By screening a library of unintegrated, circular Moloney murine leukemia virus (M-MuLV) DNA cloned in lambda phage, we found that approximately 20% of the M-MuLV DNA inserts contained internal sequence deletions or inversions. Restriction enzyme mapping demonstrated tht the deleted segments frequently abutted a long terminal repeat (LTR) sequence, whereas the inverted segments were usually flanked by LTR sequences, suggesting that many of the variants arose as a consequence of M-MuLV DNA molecules integrating within their own DNA. Nucleotide sequencing also suggested that most of the variant inserts were generated by autointegration. One of the recombinant M-MuLV DNA inserts contained a large inverted repeat of a unique M-MuLV sequence abutting an LTR. This molecule was shown by nucleotide sequencing to have arisen by an M-MuLV DNA Molecule integrating within a second M-MuLV DNA molecule before cloning. The autointegrated M-MuLV DNA had generally lost two base pairs from the LTR sequence at each junction with target site DNA, whereas a four-base-pair direct repeat of target site DNA flanked the integrated viral DNA. Nucleotide sequencing of preintegration target site DNA showed that this four-base-pair direct repeat was present only once before integration and was thus reiterated by the integration event. The results obtained from the autointegrated clones were supported by nucleotide sequencing of the host-virus junction of two cloned M-MuLV integrated proviruses obtained from infected rat cells. Detailed analysis of the different unique target site sequences revealed no obvious common features
SpMyb functions as an intramodular repressor to regulate spatial expression of CyIIIa in sea urchin embryos
The CyIIIa actin gene of Strongylocentrotus purpuratus is
transcribed exclusively in the embryonic aboral ectoderm,
under the control of 2.3 kb cis-regulatory domain that
contains a proximal module that controls expression in
early embryogenesis, and a middle module that controls
expression in later embryogenesis. Previous studies demonstrated that the SpRunt-1 target site within the middle
module is required for the sharp increase in CyIIIa transcription which accompanies differentiation of the aboral ectoderm, and that a negative regulatory region near the SpRunt-1 target site is required to prevent ectopic transcription in the oral ectoderm and skeletogenic mesenchyme. This negative regulatory region contains a
consensus binding site for the myb family of transcription
factors. In vitro DNA-binding experiments reveal that a
protein in blastula-stage nuclei interacts specifically with
the myb target site. Gene transfer experiments utilizing
CyIIIa reporter constructs containing oligonucleotide substitutions indicate that this site is both necessary and sufficient to prevent ectopic expression of CyIIIa. Synthetic oligonucleotides containing the myb target site were used to purify a protein from sea urchin embryo nuclear extracts by affinity chromatography. This protein is immunoprecipitated by antibodies specific to the evolutionarily conserved myb domain, and amino acid sequences obtained from the purified protein were found to be identical to sequences within the myb domain. Sequence information was used to obtain cDNA clones of SpMyb, the S. purpuratus member of the myb family of transcription factors. Through interactions within the middle module, SpMyb functions to repress activation of CyIIIa in the oral
ectoderm and skeletogenic mesenchyme
Kinetics of target site localization of a protein on DNA: a stochastic approach
It is widely recognized that the cleaving rate of a restriction enzyme on
target DNA sequences is several orders of magnitude faster than the maximal one
calculated from the diffusion--limited theory. It was therefore commonly
assumed that the target site interaction of a restriction enzyme with DNA has
to occur via two steps: one--dimensional diffusion along a DNA segment, and
long--range jumps coming from association/dissociation events. We propose here
a stochastic model for this reaction which comprises a series of 1D diffusions
of a restriction enzyme on non-specific DNA sequences interrupted by 3D
excursions in the solution until the target sequence is reached. This model
provides an optimal finding strategy which explains the fast association rate.
Modeling the excursions by uncorrelated random jumps, we recover the expression
of the mean time required for target site association to occur given by Berg &
al. \cite{berg81}, and we explicitly give several physical quantities
describing the stochastic pathway of the enzyme. For competitive target sites
we calculate two quantities: processivity and preference. By comparing these
theoretical expressions to recent experimental data obtained for
\textit{Eco}RV--DNA interaction, we quantify: i) the mean residence time per
binding event of \textit{Eco}RV on DNA for a representative 1D diffusion
coefficient, ii) the average lengths of DNA scanned during the 1D diffusion
(during one binding event and during the overall process), iii) the mean time
and the mean number of visits needed to go from one target site to the other.
Further, we evaluate the dynamics of DNA cleavage with regard to the
probability for the restriction enzyme to perform another 1D diffusion on the
same DNA substrate following a 3D excursion.Comment: 10 pages, 8 figure
Occurrence of target-site resistance to neonicotinoids in the aphid Myzus persicae in Tunisia, and its status on different host plants
This is the peer reviewed version of the following article: Kamel Charaabi, Sonia Boukhris-bouhachem, Mohamed Makni, and Ian Denholm, āOccurrence of targetāsite resistance to neonicotinoids in the aphidĀ Myzus persicaeĀ in Tunisia, and its status on different host plantsā, Pest Management Science, Vol. 74(6): 1297-1301, June 2018, which has been published in final form athttps://doi.org/10.1002/ps.4833 Under embargo until 19 December 2018. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Self-Archiving.BACKGROUND: The R81T mutation conferring target-site resistance to neonicotinoid insecticides in Myzus persicae was first detected in France and has since spread across much of southern Europe. In response to recent claims of control failure with neonicotinoids in Tunisia, we have used a molecular assay to investigate the presence and distribution of this target-site mutation in samples collected from six locations and six crops attacked by M. persicae. RESULTS: The resistance allele containing R81T was present at substantial frequencies (32ā55%) in aphids collected between 2014 and 2016 from northern Tunisia but was much rarer further south. It occurred in aphids collected from the aphid's primary host (peach) and four secondary crop hosts (potato, pepper, tomato and melon). Its absence in aphids from tobacco highlights complexities in the systematics of M. persicae that require further investigation. CONCLUSION: This first report of R81T from North Africa reflects a continuing expansion of its range around the Mediterranean Basin, although it remains unrecorded elsewhere in the world. Loss of efficacy of neonicotinoids presents a serious threat to the sustainability of aphid control.Peer reviewe
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