Evolutionary Patterns of Axial Muscle Systems in Some Invertebrates and Fish

SYNOPSIS. Axial muscles used for oscillatory swimming are foundnot only in fish and other vertebrates but also in some protochordatesand invertebrates. Chaetognaths have unsegmented locomotor musculaturewith some unusual features, but larvacean tunicates and thetadpole larvae of ascidians show the simplest variant of thechordate segmented axial muscle arrangement for flexing a notochordalcolumn, where all muscle cells along one side are electricallycoupled. With amphioxus, the basic fish myotomal layout is established,with two main fibre types probably used for different patternsof swimming (as in fish). There are, however, several uniquefeatures, including the flattened fibre shape and the paramyosinsystem of the notochord. Agnatha have two fibre types in themyotomes, a third type perhaps being a developmental stage inthe ontogeny of fast fibres. In lampreys, the central fibresof the characteristic fibre sandwiches in the myotomes are flattened(though less so than in amphioxus); they have a dual innervationof unknown function seen also in the fast fibre system of manyGnathostome fish groups. Hagfish fast fibres are not flattenednor do they have a dual innervation. Gnathostome fish axialmuscles are strikingly uniform in design with two possible exceptions:(1) higher teleost fast fibres which, unlike those of othergroups, are multiply-innervated and (2) tonic fibres in a fewfish, which seem not to be involved in locomotion.     

Condition and brightness of structural blue‐green: motmot tail‐racket brightness is related to speed of feather growth in males,but not in females

Coloration plays an important role in sexual and social communication, and in many avian species both males and females maintain elaborate colours. Recent research has provided strong support for the hypothesis that elaborate female traits can be maintained by sexual or social selection; however, most research on female ornamentation has focused on pigment‐based colours, and less is known about how structural colours are maintained. Both sexes of the turquoise‐browed motmot (Eumomota superciliosa) have a blue‐green racket‐tipped tail, and it remains unknown if tail coloration serves as a sexual or social signal in one or both sexes. Here, we describe sexual dichromatism in the blue‐green portion of the tail racket, and we test for a relationship between coloration and condition, as indicated by growth bars. Tail colour of both sexes has a similar spectral shape, and there is significant, although moderate, sexual dichromatism: males are brighter than females, and males have marginally greater blue‐green saturation than females. The length of feather grown per day is positively related to overall feather brightness, but this relationship is only present in males. The relationship between male coloration and condition suggests that tail colour has the potential to convey information about individual quality during mate choice or contest competition. The lack of a similar relationship in females suggests that female tail colour does not convey the same condition‐dependent information that we suggest may be reflected by male colour. Female tail colour may therefore reflect other aspects of condition, be involved in other (non‐condition‐dependent) forms of communication, or be expressed as a non‐functional byproduct of genetic correlation between the sexes. © 2012 The Linnean Society of London, Biological Journal of the Linnean Society, 2012, 106 , 673–681.     

Advances in endophenotyping schizophrenia

The search for the genetic architecture of schizophrenia has employed multiple, often converging strategies. One such strategy entails the use of tracing the heritability and neurobiology of endophenotypes. Endophenotypes are quantifiable traits not visible to the eye, which are thought to reflect an intermediate place on the path from genes to disorder. Endophenotype abnormalities in domains such as neurophysiology or neurocognition occur in schizophrenia patients as well as their clinically “unaffected” relatives, and reflect polymorphisms in the DNA of schizophrenia spectrum subjects which create vulnerability to developing schizophrenia. By identifying the single nucleotide polymorphisms (SNPs) associated with endophenotypes in schizophrenia, psychiatric neuroscientists can select new strong inference based molecular targets for the treatment of schizophrenia.     

Tramsamination and the Oxidation of Some Amino-acids by Mung Bean Mitochondria

The transaminases for the reaction of -ketoglutarate with theamino-acids L-alanine, L-aspartic acid, glycine, L-leucine,L-ornithine, and L-valine have been shown to be associated withmung bean mitochondria. Aspartate-glutamate and alanine-glutamatetransaminases are two different enzymes both of which are reversibleand stimulated by pyridoxal-5'-phosphate. Aspartate is deaminated, with associated oxygen uptake, by mitochondriafrom 1-day 8eedlings, but there is no oxygen uptake with 2-daymitochondria and aspartate, nor with 1-or 2-day mitochondriaand L-alanine, glycine, L-leucine, or L-valine although theseamino-acids are all deaminated. The change in aspartate metabolismwith increased age of the seedlings is probably due to the reorganizationof the enzyme systems which resulted in DPNH being largely oxidizedby malic dehydrogenase and oxaloacetate, instead of mainly bya DPNH oxidase.