Functional dissection of a bean chalcone synthase gene promoter in transgenic tobacco plants reveals sequence motifs essential for floral expression

Expression of chalcone synthase (CHS), the first enzyme in the flavonoid branch of the phenylpropanoid biosynthetic pathway in plants, is induced by developmental cues and environmental stimuli. We used plant transformation technology to delineate the functional structure of the French bean CHS15 gene promoter during plant development. In the absence of an efficient transformation procedure for bean, Nicotiana tabacum was used as the model plant. CHS15 promoter activity, evaluated by measurements of -d-glucuronidase (GUS) activity, revealed a tissue-specific pattern of expression similar to that reported for CHS genes in bean. GUS activity was observed in flowers and root tips. Floral expression was confined to the pigmented part of petals and was induced in a transient fashion. Fine mapping of promoter cis-elements was accomplished using a set of promoter mutants generated by unidirectional deletions or by site-directed mutagenesis. Maximal floral and root-specific expression was found to require sequence elements located on both sides of the TATA-box. Two adjacent sequence motifs, the G-box (CACGTG) and H-box (CCTACC(N)₇CT) located near the TATA-box, were both essential for floral expression, and were also found to be important for root-specific expression. The CHS15 promoter is regulated by a complex interplay between different cis-elements and their cognate factors. The conservation of both the G-box and H-box in different CHS promoters emphasizes their importance as regulatory motifs.     

欧洲伪叶甲Lagria hirta L.种群季节变化和幼虫生长发育(鞘翅目:伪叶甲科)(英)

欧洲伪叶甲Lagria hirta L.野外种群季节变化特点鲜明:成虫仅发生于6月底至8月初,幼虫除6月份外全年可见。基于野外观察和测量幼虫头宽,发现这种甲虫的生殖季节很短,在6至8月份;卵孵化后幼虫生长发育,在越冬前可达第3、4或5龄(个别达6龄);幼虫越冬后,经过总共8—10龄,于6月份化蛹。冬季幼虫发育减慢但不完全停滞(非参数型中数检验,P<0.01)。这项研究改变了以前的观点,即认为该甲虫的幼虫发育只有4或5龄,同时也对这种甲虫的生命周期研究有促进作用。     

Localization of constitutive heat shock proteins in developing ascidians

Heat shock proteins (HSP) are a group of highly conserved proteins that regulate protein folding and ameliorate the effects of environmental stress. In the present study, the question of whether or not ascidian oocytes, embryos and larvae constitutively synthesize HSP was studied using HSP 60 and HSP 70 antibodies. Developmental stages obtained from Boltenia villosa, Cnemidocarpa finmarkiensis, Styela montereyensis and Corella willmeriana were examined for HSP using indirect immunocytochemistry. Myoplasm in oocytes and unfertilized eggs reacted with HSP 60 and 70 antibodies. HSP signals dramatically moved into the vegetal egg cytoplasm during ooplasmic segregation and colocalized with the myoplasm. In cleavage-stage embryos, HSP signals were partitioned with the myoplasm into muscle progenitor blastomeres and HSP signals were evident in the tail muscle cells of larvae. Immunoblots of proteins extracted from oocytes, eggs, embryos and larvae indicate that anti-HSP 60 recognizes a single band having an estimated molecular weight of 60 kDa. Egg centrifugation experiments suggest that most of the ascidian myoplasmic HSP are mitochondrial proteins. These results raise an intriguing possibility that mitochondria associated with the myoplasm perform biochemical functions that are unique to the embryonic muscle cell lineage.     

钙调蛋白在植物发育中的功能

钙调蛋白(CaM)在植物生长和发育中有着多种功能,它参与了一系列的发育过程如细胞分裂、细胞代谢、胁迫、花药和雌蕊以及胚胎的发育等．对钙调蛋白功能的了解将有助于更深入研究钙/钙调蛋白介导的信号网络,为研究植物体内各类代谢的信号转导奠定基础．     

Circadian variation in stroke onset: identical temporal pattern in ischemic and hemorrhagic events

Stroke is the culmination of a heterogeneous group of cerebrovascular diseases that is manifested as ischemia or hemorrhage of one or more blood vessels of the brain. The occurrence of many acute cardiovascular events—such as myocardial infarction, sudden cardiac death, pulmonary embolism, critical limb ischemia, and aortic aneurysm rupture—exhibits prominent 24 h patterning, with a major morning peak and secondary early evening peak. The incidence of stroke exhibits the same 24 h pattern. Although ischemic and hemorrhagic strokes are different entities and are characterized by different pathophysiological mechanisms, they share an identical double-peak 24 h pattern. A constellation of endogenous circadian rhythms and exogenous cyclic factors are involved. The staging of the circadian rhythms in vascular tone, coagulative balance, and blood pressure plus temporal patterns in posture, physical activity, emotional stress, and medication effects play central and/or triggering roles. Features of the circadian rhythm of blood pressure, in terms of their chronic and acute effects on cerebral vessels, and of coagulation are especially important. Clinical medicine has been most concerned with the prevention of stroke in the morning, when population-based studies show it is of greatest risk during the 24 h; however, improved protection of at-risk patients against stroke in the early evening, the second most vulnerable time of cerebrovascular accidents, has received relatively little attention thus far.     

Developmental changes in the embryo, pronymph, and first molt of the scorpion Centruroides vittatus (scorpiones: buthidae)

For the first time the scanning electron microscope was used to compare developmental changes in scorpion embryos and the first and second stadia. In the buthid species of this study, Centruroides vittatus, and all other scorpions, the newborn climb up on their mother's back and remain there without feeding for several days. At this location, they undergo their first molt and in a few days they disperse, fully capable of foraging in the terrestrial environment. The results here support earlier suggestions that the first stadium (pronymph) is a continuation and extension of embryological development. The first molt results in a nymph with exoskeletal features much like those in the adult. In the first molt the metasoma becomes relatively longer, and the sting (aculeus) becomes sharp and functional. The metasomal segments are modified for dorsal flexion and sting use. The embryos and the pronymphs have spiracles that open into an invagination near the posterior margin of flap-like abdominal plates in segments 4-7 of the ventral mesosoma. The second instars have spiracles that lead to book lungs farther anterior in sternites. Tubular legs with cylindrical segments in embryos and pronymphs become more sculptured and oval in the transverse plane. Each leg in the pronymph has a blunt, cup-shaped tip while distal claws (ungues, dactyl) are present in the second instar and subsequent stages. There are some sharp bristles and primordial sensilla in the pronymphs, but the second stadium has adult-like surface features: rows of knobs or granulations (carinae), serrations on the inner surfaces of cheliceral and pedipalpal claws, filtering hairs at the mouthparts, peg sensilla on the pectines, and mechano- and chemoreceptor sensilla on the body and appendages. Scorpion embryos and pronymphs have some structures like fossil scorpions thought to have been aquatic. There is a gradual development of features that appear to be terrestrial adaptations. Evidence is provided for the formation of the sternum from third and fourth leg coxal primordia and possibly from the first abdominal segment. This study is the first to provide evidence for a forward shift of the gonopore along with other structures in the anterior abdomen.     

Conceptus ecobiometry and triplex Doppler ultrasonography of uterine and umbilical arteries for assessment of fetal viability in dogs

The objectives were to: 1) evaluate blood flow in the uterine (UA) and umbilical (Uma) arteries in the pregnant bitch, by measuring the resistive index (RI) and pulsatility index (PI); 2) to note the presence or absence of the early diastolic notch and diastolic flow in the UA and Uma flow waveforms, respectively; and 3) perform conceptus ecobiometry for fetal growth assessment during pregnancy. Six healthy bitches were examined on approximately Days -44, -42, -36, -31, -28, -25, -21, -18, -14, -8, -4, and -2 of pregnancy (whelping = Day 0). Triplex Doppler and B-mode ultrasonography were used to assess blood flow and conceptus ecobiometry. All pregnancies ended with a normal whelping and birth of live puppies. Prior to whelping, all conceptus dimensions increased significantly, whereas RI and PI of both the Uma and UA decreased significantly. For the UA, RI and PI were (mean ± SEM) 0.95 ± 0.02 and 2.75 ± 0.41, respectively, on Day -44, and were 0.60 ± 0.01 and 0.99 ± 0.03 on Day -4. For the Uma, RI and PI were 0.99 ± 0.01 and 2.42 ± 0.03 on Day -31, and were 0.62 ± 0.01 and 1.15 ± 0.02 on Day -4. The complete disappearance of the early diastolic notch in the UA, and the appearance of diastolic flow in the Uma occurred on Days -16 ± 5 and -21 ± 1. The authors concluded that UA and Uma perfusion were important end points to assess fetal vitality in bitches. Furthermore, the current reference values provided a baseline for monitoring normal and abnormal pregnancies in bitches.     

Candida albicans PHO81 is required for the inhibition of hyphal development by farnesoic acid

Farnesoic acid is a signaling molecule that inhibits the transition from budding yeast to filament formation in Candida albicans, but the molecular mechanism regulated by this substance is unknown. In this study, we analyzed the function of CaPHO81, which is induced by farnesoic acid. The pho81Δ mutant cells existed exclusively as filaments under favorable yeast growth conditions. Furthermore, the inhibition of hyphal growth and repression of CPH1, EFG1, HWP1, and GAP1 mRNA expression in response to farnesoic acid were defective in pho81Δ mutant cells. These data suggest a role for CaPHO81 in the inhibition of hyphal development by farnesoic acid.     

Clonal analysis of <Emphasis Type="Italic">Distal-less</Emphasis> and <Emphasis Type="Italic">engrailed</Emphasis> expression patterns during early morphogenesis of uniramous and biramous crustacean limbs

In order to investigate the correlation of cell lineage, gene expression, and morphogenesis of uniramous and biramous limbs we studied limb formation in the thorax and pleon of the amphipod Orchestia cavimana and the isopod Porcellio scaber. We took advantage of the fact that in amphipod and isopod crustaceans—both Malacostraca—uniramous limbs evolved independently in the thorax whereas ancestral biramous limbs are formed in the pleon (abdomen). The gene Distal-less is expressed in the early limb buds as in other arthropods. Accordingly, it is likely to be responsible for the development of the proximodistal axis of the appendages. Double staining of Distal-less and Engrailed proteins suggests that Distal-less in the pleon of the amphipod Orchestia might not be under the control of the Wingless protein. Additionally, we studied axis formation of the uniramous and biramous limbs. In both species investigated, biramous limbs originate exclusively by the subdivision of the original limb bud. Both distal elements continuously express Distal-less. There is flexibility in the suppression of the development of additional branches in the crustacean limb. In the amphipod O. cavimana, uniramous thoracopods are formed by downregulation of Distal-less in the area where, in biramous limbs, the exopodites would occur. In contrast, this region never expresses Distal-less in the uniramous thoracopods of the isopod P. scaber. Our results suggest that the gene expression pattern is independent of the cell division pattern. Gene expression domains and morphogenesis of limbs and segments, on the other hand, show a good correlation.Edited by D. Tautz     

Defining subdomains of the K domain important for protein–protein interactions of plant MADS proteins

The MADS proteins APETALA3 (AP3), PISTILLATA (PI), SEPALLATAI (SEPI), SEP2, SEP3, AGAMOUS, and APETALA are required for proper floral organ identity in Arabidopsis flowers. All of these floral MADS proteins conserve two domains: the MADS domain that mediates DNA binding and dimerization, and the K domain that mediates protein protein interaction. The K domain is postulated to form a several amphipathic c-helices referred to as K1, K2, and K3. The K1 and K2 helicies are located entirely within the K domain while the K3 helix spans the K domain-C domain boundary. Here we report on our studies on the interactions of the B class MADS proteins AP3 and PI with the E class MADS proteins SEP1, SEP2, and SEP3. A comparative analysis of mutants in the K domain reveals that the subdomains mediating the PI/AP3 interaction are different from the subdomains mediating the PI/SEP3 (or PI/SEP1) interaction. The strong PI/SEP3 (or PI/SEP1) interaction requires K2, part of K3, and the interhelical region between K1 and K2. By contrast, K1, K2 and the region between K1 and K2 are important for strong AP3/PI interaction. Most of the K3 helix does not appear to be important for either the PI/AP3 or the PI/SEP3 (or PI/SEP1) interaction. Conserved hydrophobic positions are most important for the strength of both PI/AP3 and PI/SEP3 dimerization, though ionic and/or polar interactions appear to play a secondary role.