Major muscle systems in the larval caenogastropod,Ilyanassa obsoleta,display different patterns of development

This study describes the anatomical and developmental aspects of muscular development from the early embryo to competent larval stage in the gastropod Ilyanassa obsoleta. Staining of F‐actin revealed differential spatial and temporal patterns of several muscles. In particular, two major muscles, the larval retractor and pedal retractor muscles originate independently and display distinct developmental patterns similar to observations in other gastropod species. Additionally, together with the larval retractor muscle, the accessory larval muscle developed in the embryo at the trochophore stage. Therefore, both these muscles develop prior to ontogenetic torsion. The pedal retractor muscle marked the most abundant growth in the mid veliger stage. Also during the middle stage, the metapodial retractor muscle and opercular retractor muscle grew concurrently with development of the foot. We show evidence that juvenile muscles, such as the buccal mass muscle and siphon muscle develop initially during the late veliger stage. Collectively, these findings substantiate that larval myogenesis involves a complex sequence of events that appear evolutionary conserved within the gastropods, and set the stage for future studies using this model species to address issues concerning the evolution and eventual fates of larval musculature in molluscs. J. Morphol., 2009. © 2009 Wiley‐Liss, Inc.     

Isolation of Resistance Gene Analogs in Pepper Using Modified AFLPs

An efficient technique for isolation of resistant gene analogs (RGAs) in pepper from silver stained denaturing polyacrylamide gel was developed using a modified amplified fragment length polymorphism (AFLP) strategy. Pepper DNA was digested, ligated and pre-amplified as in a normal AFLP method. The selective amplification was made by using combinations with oligonucleotide primers based on conserved motifs in and around nucleotide binding site (NBS) of known NBS-leucine-rich repeats resistance proteins from known resistant genes. The amplified products were separated by using denaturing polyacrylamide gels and silver staining instead of radioactive labelling. We isolated specific polymorphic AFLP bands directly from the gels with one round of polymerase chain reaction amplification, in order to confirm, after sequencing, that these bands have homologies with products of resistance genes described so far. Two bands (R2: 250 bp and R6: 150 bp) are particularly highlighted because they could be considered as RGAs related to resistance to Phytophthora capsici in pepper, because their sequences have a very high homology with other resistant gene analogs that have already been described. Besides, they were only detected in the resistant parent and in the bulked resistant segregants but not in the susceptible parent or susceptible F₂ segregants. We can conclude that the technique used is clean, quick and efficient for the isolation of RGAs in pepper. This revised version was published online in July 2006 with corrections to the Cover Date.     

Animal locomotion: a new spin on bat flight

Biologists and engineers have long struggled to understand the hovering flight of insects, birds, and bats. The enormous diversity of these groups would suggest they fly using a variety of mechanisms, but a new study shows that hovering bats use the same aerodynamic mechanisms as do moths and other insects.     

Visually mediated motor planning in the escape response of Drosophila

A key feature of reactive behaviors is the ability to spatially localize a salient stimulus and act accordingly. Such sensory-motor transformations must be particularly fast and well tuned in escape behaviors, in which both the speed and accuracy of the evasive response determine whether an animal successfully avoids predation [1]. We studied the escape behavior of the fruit fly, Drosophila, and found that flies can use visual information to plan a jump directly away from a looming threat. This is surprising, given the architecture of the pathway thought to mediate escape [2, 3]. Using high-speed videography, we found that approximately 200 ms before takeoff, flies begin a series of postural adjustments that determine the direction of their escape. These movements position their center of mass so that leg extension will push them away from the expanding visual stimulus. These preflight movements are not the result of a simple feed-forward motor program because their magnitude and direction depend on the flies' initial postural state. Furthermore, flies plan a takeoff direction even in instances when they choose not to jump. This sophisticated motor program is evidence for a form of rapid, visually mediated motor planning in a genetically accessible model organism.     

When genomes collide: aberrant seed development following maize interploidy crosses

Background and Aims: The results of wide- or interploidy crosses in angiosperms areunpredictable and often lead to seed abortion. The consequencesof reciprocal interploidy crosses have been explored in maizein detail, focusing on alterations to tissue domains in themaize endosperm, and changes in endosperm-specific gene expression. Methods: Following reciprocal interploidy crosses between diploid andtetraploid maize lines, development of endosperm domains wasstudied using GUS reporter lines, and gene expression in resultingkernels was investigated using semi-quantitative RT-PCR on endospermsisolated at different stages of development. Key Results: Reciprocal interploidy crosses result in very small, largelyinfertile seeds with defective endosperms. Seeds with maternalgenomic excess are smaller than those with paternal genomicexcess, their endosperms cellularize earlier and they accumulatesignificant quantities of starch. Endosperms from the reciprocalcross undergo an extended period of cell proliferation, andaccumulate little starch. Analysis of reporter lines and geneexpression studies confirm that functional domains of the endospermare severely disrupted, and are modified differently accordingto the direction of the interploidy cross. Conclusions: Interploidy crosses affect factors which regulate the balancebetween cell proliferation and cell differentiation within theendosperm. In particular, unbalanced crosses in maize affecttransfer cell differentiation, and lead to the temporal deregulationof the ontogenic programme of endosperm development.     

Selective urokinase-type plasminogen activator (uPA) inhibitors. Part 2: (3-Substituted-5-halo-2-pyridinyl)guanidines.

Based on previous modeling predictions, a series of (3-substituted-5-chloro-2-pyridinyl)guanidines have been designed with good potency and selectivity for urokinase-type plasminogen activator (uPA). Compound 36 has a K(i) of 0.17 microM and greater than 300-fold selectivity with respect to tPA and plasmin.