5,031 research outputs found
Molecular evidence for gender differences in the migratory behaviour of a small seabird
Molecular sexing revealed an unexpectedly strong female bias in the sex ratio of pre-breeding European Storm Petrels (Hydrobates pelagicus), attracted to playback of conspecific calls during their northwards migration past SW Europe. This bias was consistent across seven years, ranging from 80.8% to 89.7% female (mean annual sex ratio ± SD = 85.5% female ±4.1%). The sex ratio did not differ significantly from unity (i.e., 50% female) among (i) Storm Petrel chicks at a breeding colony in NW France, (ii) adults found dead on beaches in Southern Portugal, (iii) breeding birds attending nest burrows in the UK, captured by hand, and (iv) adults captured near a breeding colony in the UK using copies of the same sound recordings as used in Southern Europe, indicating that females are not inherently more strongly attracted to playback calls than males. A morphological discriminant function analysis failed to provide a good separation of the sexes, showing the importance of molecular sexing for this species. We found no sex difference in the seasonal or nocturnal timing of migration past Southern Europe, but there was a significant tendency for birds to be caught in sex-specific aggregations. The preponderance of females captured in Southern Europe suggests that the sexes may differ in migration route or in their colony-prospecting behaviour during migration, at sites far away from their natal colonies. Such differences in migration behaviour between males and females are poorly understood but have implications for the vulnerability of seabirds to pollution and environmental change at sea during the non-breeding season
Immunocytochemical Localization of (Na + ,K + )-ATPase in the Goldfish Optic Nerve
Antiserum to the catalytic subunit of goldfish brain (Na + ,K + )-ATPase has been employed at the electron microscopic level by means of the peroxidase-antiperoxidase immunohistochemical method. In optic nerve, an-tigenic sites are restricted to the nodes of Ranvier. No reaction product is detected in underlying internodal neurolemma. Outgrowing neurites for cultured retinal explants devoid of glial ensheathment exhibit a continuous distribution of the enzyme subunit. Antibodies against eel electroplax (Na + , K + )-ATPase cross-react with the goldfish brain enzyme and show a similar immunocytochemical distribution pattern.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/65862/1/j.1471-4159.1981.tb02384.x.pd
Quenched Chiral Perturbation Theory for Heavy-light Mesons
We formulate quenched chiral perturbation theory for heavy-light mesons
coupled to pions, and calculate the one-loop chiral logarithmic corrections to
, , and . We also calculate these corrections
for ``partially quenched'' theories. In both theories, the chiral logarithms
diverge in the chiral limit, indicating that (partially) quenched theories
should not be used to study this limit. Comparing the chiral logarithms to
those in QCD, we estimate the errors caused by (partial) quenching. By forming
suitable ratios, we can reduce the uncertainties in our estimates.Comment: 22 pages, revtex format, 5 Postscript figure
Efficient delivery of small interfering RNA for inhibition of IL-12p40 expression in vivo
Background: RNA interference is an evolutionary conserved immune response mechanism that
can be used as a tool to provide novel insights into gene function and structure. The ability to
efficiently deliver small interfering RNA to modulate gene expression in vivo may provide new
therapeutic approaches to currently intractable diseases.
Methods: In vitro, siRNA targeting IL-12p40 was delivered to the murine macrophage cell line
(J774A.1) encapsulated in a liposome with an IL-12 inducing agent (LPS/IFN-ĂŽÂł) over a number of
time points. Controls included a variety of non-target specific siRNA reagents. Supernatants were
analyzed for cytokine production while the cells were removed for mRNA profiling.
In vivo, siRNA-targeting IL-12p40 was delivered to the murine peritoneal cavity in a therapeutic
fashion, after endotoxin (LPS) challenge. Cells from the peritoneal cavity were removed by lavage
and analyzed by flow cytometry. Levels of IL-12 present in lavage and in serum were also examined
by ELISA.
Results: In this report, we show that IL-12p40 siRNA can specifically silence macrophage
expression of IL-12p40 mRNA and IL-12p70 protein in vitro. We extend this finding to demonstrate
that delivery of liposome encapsulated siRNA targeting IL-12p40 to the murine peritoneal cavity
can modulate an inflammatory stimulus in vivo. Furthermore, specific siRNA can be used
therapeutically after endotoxin challenge to reduce both the local and systemic inflammatory
response. Thus, the delivery of siRNA can be used to elicit specific non-permanent inhibition of
endogenous protein expression.
Conclusion: In vitro silencing of IL-12p40 using siRNA at selected doses leads to specific
knockdown of IL-12p70 protein production without inducing type I interferons. Furthermore,
siRNA targeting murine IL-12p40 can be used therapeutically to counter an inflammatory response
in vivo
Efficient delivery of small interfering RNA for inhibition of IL-12p40 expression in vivo
Background: RNA interference is an evolutionary conserved immune response mechanism that
can be used as a tool to provide novel insights into gene function and structure. The ability to
efficiently deliver small interfering RNA to modulate gene expression in vivo may provide new
therapeutic approaches to currently intractable diseases.
Methods: In vitro, siRNA targeting IL-12p40 was delivered to the murine macrophage cell line
(J774A.1) encapsulated in a liposome with an IL-12 inducing agent (LPS/IFN-ĂŽÂł) over a number of
time points. Controls included a variety of non-target specific siRNA reagents. Supernatants were
analyzed for cytokine production while the cells were removed for mRNA profiling.
In vivo, siRNA-targeting IL-12p40 was delivered to the murine peritoneal cavity in a therapeutic
fashion, after endotoxin (LPS) challenge. Cells from the peritoneal cavity were removed by lavage
and analyzed by flow cytometry. Levels of IL-12 present in lavage and in serum were also examined
by ELISA.
Results: In this report, we show that IL-12p40 siRNA can specifically silence macrophage
expression of IL-12p40 mRNA and IL-12p70 protein in vitro. We extend this finding to demonstrate
that delivery of liposome encapsulated siRNA targeting IL-12p40 to the murine peritoneal cavity
can modulate an inflammatory stimulus in vivo. Furthermore, specific siRNA can be used
therapeutically after endotoxin challenge to reduce both the local and systemic inflammatory
response. Thus, the delivery of siRNA can be used to elicit specific non-permanent inhibition of endogenous protein expression.
Conclusion: In vitro silencing of IL-12p40 using siRNA at selected doses leads to specific knockdown of IL-12p70 protein production without inducing type I interferons. Furthermore, siRNA targeting murine IL-12p40 can be used therapeutically to counter an inflammatory response
in vivo
Physical Results from Unphysical Simulations
We calculate various properties of pseudoscalar mesons in partially quenched
QCD using chiral perturbation theory through next-to-leading order. Our results
can be used to extrapolate to QCD from partially quenched simulations, as long
as the latter use three light dynamical quarks. In other words, one can use
unphysical simulations to extract physical quantities - in this case the quark
masses, meson decay constants, and the Gasser-Leutwyler parameters L_4-L_8. Our
proposal for determining L_7 makes explicit use of an unphysical (yet
measurable) effect of partially quenched theories, namely the double-pole that
appears in certain two-point correlation functions. Most of our calculations
are done for sea quarks having up to three different masses, except for our
result for L_7, which is derived for degenerate sea quarks.Comment: 26 pages, 12 figures (discussion on discretization errors at end of
sec. IV clarified; minor improvements in presentation; results unchanged
Efficient delivery of small interfering RNA for inhibition of IL-12p40 expression in vivo
Background: RNA interference is an evolutionary conserved immune response mechanism that
can be used as a tool to provide novel insights into gene function and structure. The ability to
efficiently deliver small interfering RNA to modulate gene expression in vivo may provide new
therapeutic approaches to currently intractable diseases.
Methods: In vitro, siRNA targeting IL-12p40 was delivered to the murine macrophage cell line
(J774A.1) encapsulated in a liposome with an IL-12 inducing agent (LPS/IFN-ĂŽÂł) over a number of
time points. Controls included a variety of non-target specific siRNA reagents. Supernatants were
analyzed for cytokine production while the cells were removed for mRNA profiling.
In vivo, siRNA-targeting IL-12p40 was delivered to the murine peritoneal cavity in a therapeutic
fashion, after endotoxin (LPS) challenge. Cells from the peritoneal cavity were removed by lavage
and analyzed by flow cytometry. Levels of IL-12 present in lavage and in serum were also examined
by ELISA.
Results: In this report, we show that IL-12p40 siRNA can specifically silence macrophage
expression of IL-12p40 mRNA and IL-12p70 protein in vitro. We extend this finding to demonstrate
that delivery of liposome encapsulated siRNA targeting IL-12p40 to the murine peritoneal cavity
can modulate an inflammatory stimulus in vivo. Furthermore, specific siRNA can be used
therapeutically after endotoxin challenge to reduce both the local and systemic inflammatory
response. Thus, the delivery of siRNA can be used to elicit specific non-permanent inhibition of
endogenous protein expression.
Conclusion: In vitro silencing of IL-12p40 using siRNA at selected doses leads to specific
knockdown of IL-12p70 protein production without inducing type I interferons. Furthermore,
siRNA targeting murine IL-12p40 can be used therapeutically to counter an inflammatory response
in vivo
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