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51.
C. L. Pruett J. A. Johnson L. C. Larsson D. H. Wolfe M. A. Patten 《Conservation Genetics》2011,12(5):1205-1214
Assessments of census size (N
c) and effective population size (N
e) are necessary for the conservation of species exhibiting population declines. We examined two populations (Oklahoma and
New Mexico) of the lesser prairie-chicken (Tympanuchus pallidicinctus), a declining lek-breeding bird, in which one population (Oklahoma) has larger clutch size and more nesting attempts per
year but lower survival caused by human changes to the landscape. We estimated demographic and genetic estimates of N
e for each population and found that both populations have low N
e estimates with a risk of inbreeding depression. Although Oklahoma females produce a larger number of offspring, the proportion
of females successfully reproducing is not higher than in New Mexico. Higher reproductive effort has likely reached a physiological
limit in Oklahoma prairie-chickens but has not led to a higher N
e or even a larger N
c than New Mexico. We propose that future conservation efforts focus on maximizing survivorship and decreasing the variance
in reproductive success because these factors are more likely than increasing reproductive output alone to yield population
persistence in lek-breeding species. 相似文献
52.
Kendra PE Niogret J Montgomery WS Sanchez JS Deyrup MA Pruett GE Ploetz RC Epsky ND Heath RR 《Journal of economic entomology》2012,105(2):659-669
Redbay ambrosia beetle, Xyleborus glabratus Eichhoff, is an exotic wood-borer that vectors the fungal agent (Raffaelea lauricola) responsible for laurel wilt. Laurel wilt has had severe impact on forest ecosystems in the southeastern United States, killing a large proportion of native Persea trees, particularly redbay (P. borbonia) and swampbay (P. palustris), and currently poses an economic threat to avocado (P. americana) in Florida. To control the spread of this lethal disease, effective attractants are needed for early detection of the vector. Two 12-wk field tests were conducted in Florida to evaluate efficacy and longevity of manuka and phoebe oil lures, and to relate captures of X. glabratus to release rates of putative sesquiterpene attractants. Two trap types were also evaluated, Lindgren funnel traps and sticky panel traps. To document lure emissions over time, a separate set of lures was aged outdoors for 12 wk and sampled periodically to quantify volatile sesquiterpenes using super-Q adsorbant and gas chromatography-mass spectroscopy analysis. Phoebe lures captured significantly more X. glabratus than manuka lures, and sticky traps captured more beetles than funnel traps. Phoebe lures captured X. glabratus for 10-12 wk, but field life of manuka lures was 2-3 wk. Emissions of alpha-copaene, alpha-humulene, and cadinene were consistently higher from phoebe lures, particularly during the 2-3 wk window when manuka lures lost efficacy, suggesting that these sesquiterpenes are primary kairomones used by host-seeking females. Results indicate that the current monitoring system is suboptimal for early detection of X. glabratus because of rapid depletion of sesquiterpenes from manuka lures. 相似文献
53.
54.
Amy Wilson P. Arcese L. F. Keller C. L. Pruett K. Winker M. A. Patten Y. Chan 《Conservation Genetics》2009,10(2):419-430
Genetic variation is often lower within island populations, however islands may also harbor divergent genetic variation. The
likelihood that insular populations are genetically diverse or divergent should be influenced by island size and isolation.
We tested this assumption by comparing patterns of genetic variation across all major island song sparrow populations along
the Pacific North American coast. Allelic richness was moderately lowered even on islands which are close to large, potential
sources. The most significant differences in allelic richness occurred on very small or highly remote islands. Gene diversity
was significantly lower only on remote or very small islands. We found that island populations contribute to regional genetic
variation through both the amount of genetic variation and the uniqueness of that variation. The partitioning of this contribution
was associated with the size and isolation of the island populations. 相似文献
55.
Qi C Wheeler JA Pruett A Pekala PH 《Biochemical and biophysical research communications》2002,294(2):329-333
Mel-N1 (murine embryonic lethal abnormal vision [ELAV]), a mammalian homolog of Drosophila ELAV, is an mRNA binding protein of the RNA Recognition Motif family. Studies with the human homolog, Hel-N1 have supported the hypothesis that Hel-N1, and its splice variant, Hel-N2 play a role in mRNA metabolism. Thus it becomes logical to extend this hypothesis to the murine variant Mel-N1 which has been described as a neuronal protein with a minor level of expression in the testis. Our current work expands the potential function for this protein through demonstration of expression of the full-length message and splice variants in adipose tissue as well as preadipocyte and adipocyte cell lines. 相似文献
56.
We examine the Hoxc12 RNA expression pattern during both hair follicle morphogenesis and cycling in direct comparison to its only upstream neighbor, Hoxc13. Expression of both genes is restricted to the epidermal part of the follicle excluding the outer root sheath and interfollicular epidermis in a distinct stage-dependent and cyclical manner. During the progressive growth phase (anagen) of developing and cycling follicles, the distinct proximo-distal expression domain of Hoxc12 overlaps only proximally, at the upper-most region of the bulb, with the more proximally restricted Hoxc13 domain. This arrangement of the expression domains of the two genes along the proximal-toward-distal axis of increasing follicular differentiation correlates with the sequential expression of first Hoxc13 and then Hoxc12. This indicates a reversal of the typical temporal colinearity of Hox gene activation otherwise observed along the anterior-posterior morphogenetic axis of the embryo (review: Cell 78 (1994) 191). 相似文献
57.
Pruett PS Azzi A Clark SA Yousef MS Gattis JL Somasundaram T Ellington WR Chapman MS 《The Journal of biological chemistry》2003,278(29):26952-26957
Arginine kinase is a member of the phosphagen kinase family that includes creatine kinase and likely shares a common reaction mechanism in catalyzing the buffering of cellular ATP energy levels. Abstraction of a proton from the substrate guanidinium by a catalytic base has long been thought to be an early mechanistic step. The structure of arginine kinase as a transition state analog complex (Zhou, G., Somasundaram, T., Blanc, E., Parthasarathy, G., Ellington, W. R., and Chapman, M. S. (1998) Proc. Natl. Acad. Sci. U. S. A. 95, 8449-8454) showed that Glu-225 and Glu-314 were the only potential catalytic residues contacting the phosphorylated nitrogen. In the present study, these residues were changed to Asp, Gln, and Val or Ala in several single and multisite mutant enzymes. These mutations had little impact on the substrate binding constants. The effect upon activity varied with reductions in kcat between 3000-fold and less than 2-fold. The retention of significant activity in some mutants contrasts with published studies of homologues and suggests that acid-base catalysis by these residues may enhance the rate but is not absolutely essential. Crystal structures of mutant enzymes E314D at 1.9 A and E225Q at 2.8 A resolution showed that the precise alignment of substrates is subtly distorted. Thus, pre-ordering of substrates might be just as important as acid-base chemistry, electrostatics, or other potential effects in the modest impact of these residues upon catalysis. 相似文献
58.
59.
Ramani VC Pruett PS Thompson CA DeLucas LD Sanderson RD 《The Journal of biological chemistry》2012,287(13):9952-9961
Matrix metalloproteinases release intact syndecan-1 ectodomains from the cell surface giving rise to a soluble, shed form of the proteoglycan. Although it is known that shed syndecan-1 controls diverse pathophysiological responses in cancer, wound healing, inflammation, infection, and immunity, the mechanisms regulating shedding remain unclear. We have discovered that the heparan sulfate chains present on syndecan core proteins suppress shedding of the proteoglycan. Syndecan shedding is dramatically enhanced when the heparan sulfate chains are enzymatically degraded or absent from the core protein. Exogenous heparan sulfate or heparin does not inhibit shedding, indicating that heparan sulfate must be attached to the core protein to suppress shedding. Regulation of shedding by heparan sulfate occurs in multiple cell types, for both syndecan-1 and syndecan-4 and in murine and human syndecans. Mechanistically, the loss of heparan sulfate enhances the susceptibility of the core protein to proteolytic cleavage by matrix metalloproteinases. Enhanced shedding of syndecan-1 following loss of heparan sulfate is accompanied by a dramatic increase in core protein synthesis. This suggests that in response to an increase in the rate of shedding, cells attempt to maintain a significant level of syndecan-1 on the cell surface. Together these data indicate that the amount of heparan sulfate present on syndecan core proteins regulates both the rate of syndecan shedding and core protein synthesis. These findings assign new functions to heparan sulfate chains, thereby broadening our understanding of their physiological importance and implying that therapeutic inhibition of heparan sulfate degradation could impact the progression of some diseases. 相似文献
60.
Measures of dopamine-regulating proteins in somatodendritic regions are often used only as static indicators of neuron viability, overlooking the possible impact of somatodendritic dopamine (DA) signaling on behavior and the potential autonomy of DA regulation between somatodendritic and terminal field compartments. DA reuptake capacity is less in somatodendritic regions, possibly placing a greater burden on de novo DA biosynthesis within this compartment to maintain DA signaling. Therefore, regulation of tyrosine hydroxylase (TH) activity may be particularly critical for somatodendritic DA signaling. Phosphorylation of TH at ser31 or ser40 can increase activity, but their impact on L-DOPA biosynthesis in vivo is unknown. Thus, determining their relationship with L-DOPA tissue content could reveal a mechanism by which DA signaling is normally maintained. In Brown-Norway Fischer 344 F? hybrid rats, we quantified TH phosphorylation versus L-DOPA accumulation. After inhibition of aromatic acid decarboxylase, L-DOPA tissue content per recovered TH protein was greatest in NAc, matched by differences in ser31, but not ser40, phosphorylation. The L-DOPA per catecholamine and DA turnover ratios were significantly greater in SN and VTA, suggesting greater reliance on de novo DA biosynthesis therein. These compartmental differences reflected an overall autonomy of DA regulation, as seen by decreased DA content in SN and VTA, but not in striatum or NAc, following short-term DA biosynthesis inhibition from local infusion of the TH inhibitor α-methyl-p-tyrosine, as well as in the long-term process of aging. Such data suggest ser31 phosphorylation plays a significant role in regulating TH activity in vivo, particularly in somatodendritic regions, which may have a greater reliance on de novo DA biosynthesis. Thus, to the extent that somatodendritic DA release affects behavior, TH regulation in the midbrain may be critical for DA bioavailability to influence behavior. 相似文献