Taxonomic distribution and origins of the extended LHC (light-harvesting complex) antenna protein superfamily

Background  

The extended light-harvesting complex (LHC) protein superfamily is a centerpiece of eukaryotic photosynthesis, comprising the LHC family and several families involved in photoprotection, like the LHC-like and the photosystem II subunit S (PSBS). The evolution of this complex superfamily has long remained elusive, partially due to previously missing families.     

Temperature-shift analysis of conidial development in Aspergillus nidulans

Temperature-shift experiments have been performed on spore-originated colonies of 11 thermosensitive aconidial mutants of Aspergillus nidulans in order to determine the latest time of shift to the restrictive temperature that prevents the initiation of conidiation. This time defines the beginning of the thermosensitive period (TSP) of the mutant. Eight of the mutants have TSPs that begin in the 7-hour period (32–39 hr) just prior to the first appearance of conidia-bearing structures, while 3 of the mutants have TSPs that begin later and very close to the time of onset of conidiation (45 hr). Thus no mutant of the set has a TSP that begins during the first 32 hr of vegetative growth of spore-originated colonies. For all mutants, an upshift performed after the beginning of the TSP allows initiation of conidiation at close to the normal time and at the normal rate, but results in an abrupt cessation of conidiation at some fixed time after upshift, characteristic of the mutant. The mutant whose TSP begins the earliest (aco-49) is exceptional in that, if conidiation is suppressed by growth of colonies in submerged culture, this mutant becomes thermoinsensitive during vegetative submerged growth; in contrast, the remaining 10 mutants become thermoinsensitive only after the suppressive condition has been relieved. We discuss the possibility that this exceptional mutant is defective in a function required for initiation of the process that ultimately results in the formation of conidia.     

Cytological and mapping analysis of a novel male sterile type resulting from spontaneous floral organ homeotic conversion in marigold (<Emphasis Type="Italic">Tagetes erecta</Emphasis> L.)

A male sterile line was isolated in marigold (Tagetes erecta L.) and cytological analysis determined this to be a novel genic male sterility trait (Tems). Through the use of amplified fragment length polymorphisms (AFLPs) and bulked segregant analysis (BSA), tightly linked markers of Tems were identified with a view towards a map-based cloning strategy. It was found that spontaneous homeotic conversion of floral organs was the underlying cause of the male sterility in this marigold line. Thus, petals of male sterile plants resembled sepal-like structures and the stamens were partially converted to styles, although without the full characteristics or function of the true style organs. We have constructed a fine marker-based map for the Tems gene. This is intended to provide a tool for marker assisted selection (MAS) strategies in hybrid breeding and map-based cloning strategies for the male sterility locus. We discuss the significance of this spontaneously derived genic male sterility trait relating to the homeotic conversion of floral organs in marigold.     

It’s a knockout: CCN3 suppresses neointimal thickening

The role of CCN proteins in vivo is only just becoming understood. A prototypical member of the CCN family, CCN3 suppresses proliferation. In a study in press, Shimoyama and colleagues show that mice lacking CCN3 have a hyperproliferative response to vascular injury. These data, along with other recent observations, suggest that CCN3 may represent a novel therapy for hyperproliferative diseases.     

Morphological embedding and phonetic reduction: the case of triconstituent compounds

In this paper we propose that the internal bracketing of a word with more than two morphemes is reflected in the phonetic implementation. We hypothesize that embedded forms show more phonetic reduction than forms at higher structural levels (‘Embedded Reduction Hypothesis’). This paper tests the prediction of the Embedded Reduction Hypothesis with triconstituent compounds. The analysis of the durational properties of almost 500 compound tokens shows that there is a lengthening effect on the non-embedded constituent, and a shortening effect on the adjacent embedded constituent. Yet, this predicted effect of embedding interacts with other lexical factors, above all the bigram frequency of the embedded compound. At a theoretical level, these effects mean that the durational properties of the cross-boundary constituents are indicative of the hierarchical structure and of the strength of the internal boundary of triconstituent compounds. Hence, morphological structure is reflected in the speech signal.