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Heterocyst differentiation in cyanobacteria filaments is one of the simplest examples of cellular differentiation and pattern formation in multicellular organisms. Despite of the many experimental studies addressing the evolution and sustainment of heterocyst patterns and the knowledge of the genetic circuit underlying the behavior of single cyanobacterium under nitrogen deprivation, there is still a theoretical gap connecting these two macroscopic and microscopic processes. As an attempt to shed light on this issue, here we explore heterocyst differentiation under the paradigm of systems biology. This framework allows us to formulate the essential dynamical ingredients of the genetic circuit of a single cyanobacterium into a set of differential equations describing the time evolution of the concentrations of the relevant molecular products. As a result, we are able to study the behavior of a single cyanobacterium under different external conditions, emulating nitrogen deprivation, and simulate the dynamics of cyanobacteria filaments by coupling their respective genetic circuits via molecular diffusion. These two ingredients allow us to understand the principles by which heterocyst patterns can be generated and sustained. In particular, our results point out that, by including both diffusion and noisy external conditions in the computational model, it is possible to reproduce the main features of the formation and sustainment of heterocyst patterns in cyanobacteria filaments as observed experimentally. Finally, we discuss the validity and possible improvements of the model. 相似文献
939.
Apical distribution of HFE–β2-microglobulin is associated with inhibition of apical iron uptake in intestinal epithelia cells 总被引:1,自引:0,他引:1
Miguel Arredondo Victoria Tapia Alejandro Rojas Pabla Aguirre Francisca Reyes Maria Paz Marzolo Marco T. Núñez 《Biometals》2006,19(4):379-388
Mutations in the HFE gene result in hereditary hemochromatosis, a disorder of iron metabolism characterized by increased intestinal iron absorption.
Based on the observation that ectopic expression of HFE strongly inhibits apical iron uptake (Arredondo et al., 2001, FASEB J 15, 1276–1278), a negative regulation of HFE on the apical membrane transporter DMT1 was proposed as a mechanism by which HFE
regulates iron absorption. To test this hypothesis, we investigated: (i) the effect of HFE antisense oligonucleotides on apical
iron uptake by polarized Caco-2 cells; (ii) the apical/basolateral membrane distribution of HFE, β-2 microglobulin and DMT1;
(iii) the putative molecular association between HFE and DMT1. We found that HFE antisense treatment reduced HFE expression
and increased apical iron uptake, whereas transfection with wild-type HFE inhibited iron uptake. Thus, an inverse relationship
was established between HFE levels and apical iron uptake activity. Selective apical or basolateral biotinylation indicated
preferential localization of DMT1 to the apical membrane and of HFE and β-2 microglobulin (β2m) to the basolateral membrane.
Ectopic expression of HFE resulted in increased distribution of HFE–β2m to the apical membrane. The amount of HFE–β2m in the
apical membrane inversely correlated with apical iron uptake rates. Immunoprecipitations of HFE or β2m with specific antibodies
resulted in the co-precipitation of DMT1. These results sustain a model by which direct interaction between DMT1 and HFE–β2m
in the apical membrane of Caco-2 cells result in down-regulation of apical iron uptake activity. 相似文献
940.
Alejandro Solla Slobodan Milanović Alejandro Gallardo Ana Bueno Tamara Corcobado Yonatan Cáceres David Morcuende Alberto Quesada Gerardo Moreno Fernando Pulido 《Tree Genetics & Genomes》2016,12(6):117
Genetic variability of trees influences the chemical composition of tissues. This determines herbivore impact and, consequently, herbivore performance. We evaluated the independent effects of plant genotype and provenance on the tannin content of holm oak (Quercus ilex) and their consequences for herbivory and performance of gypsy moth (Lymantria dispar) larvae. Oak seedlings of 48 open-pollinated families from six populations were grown in a common garden in central Spain. Half the plants were subjected to defoliation by gypsy moth larvae and the other half were destructively sampled for chemical analysis. Tannin content of leaves did not differ significantly among populations but differed significantly among families. Estimates of heritability (h 2) and quantitative genetic differentiation among populations for tannin content (Q ST) were 0.83 and 0.12, respectively. Defoliation was not related to the tannin content of plants nor to spine and trichome densities of leaves, although positive family–mean associations were observed between defoliation and both seed weight and plant height (P < 0.003). Among the oak populations, differential increase in larval weight gain with defoliation was observed. Leaf tannin content in Q. ilex is genetically controlled but does not influence defoliation or predict performance of the larvae. Different efficiencies of food utilisation depending on the oak genotypes indicate that other plant traits are influencing the feeding patterns and fitness of L. dispar and consequent population dynamics. 相似文献