Vegetative Architecture of Elaeocarpus hookerianus. Periodic Growth Patterns in Divaricating Juveniles

Elaeocarpus hookerianus Raoul, a canopy tree native to New Zealand,has a divaricating juvenile stage. The juvenile produces shortshoots on both vertical and horizontal axes in the spring; longshoots are formed and expand most in summer months. Axes haveregions of long internodes interspersed with regions of shortinternodes. Long internodes are associated with production ofsinuate, linear-lanceolate leaves, the outgrowth of many lateralbranches, and a wide angle of divergence between terminal andlateral axes. Regions with short internodes bear smaller, obovateleaves, and lateral outgrowth is suppressed. Periodicity ininternode length is synchronous for first- and second-orderhorizontal axes at comparable distances along a branch. Verticalaxes elongate more extensively, bear more linear lanceolateleaves, and branch more prolifically than horizontal axes. Topologicalgrowth, as determined by monthly estimates of mean order andof partition asymmetry, is similar for vertical and horizontalaxes; both become more symmetrical towards the end of the season.Most leaves fall, and growth halts over winter months. The characteristichabit of juvenileE. hookerianus results from weak apical controlof lateral shoot outgrowth, and periodic growth that providesfor efficiency in light capture and expenditure for structuralsupport. Vertical axes are considered to ‘explore’the environment peripheral to the plant's canopy, whereas horizontalaxes ‘exploit’ the canopy volume already captured. Elaeocarpus hookerianus Raoul; divaricating; architecture; periodic growth patterns     

AstA Signaling Functions as an Evolutionary Conserved Mechanism Timing Juvenile to Adult Transition

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Healthcare Transition from Pediatric to Adult Medical Homes

ObjectiveTo review and exemplify the complexities and challenges in healthcare transition from the pediatric medical home to the adult medical home for patients with type 1 and type 2 diabetes mellitus and to highlight the importance of this topic to adult-focused clinical endocrinologists.MethodsWe performed a literature search using PubMed and multiple key words. To set the scene for discussions, we also reviewed landmark publications in the general healthcare transition literature over the last several decades; we provide a brief historical perspective at the beginning of our discussions.ResultsGiven the critical importance of successful healthcare transition, there is little empirical evidence on key aspects of these transitions. The vast majority of the literature focuses on type 1 diabetes because historically, this form has predominantly affected pediatric patients. However, the increasing incidence and prevalence of pediatric patients with type 2 diabetes makes investigations vital for this patient population too. The Treatment Options for Type 2 Diabetes in Adolescents and Youth study has proved informative in this regard.ConclusionCrossing the chasm between pediatric and adult healthcare remains a remarkably flawed transition process. Healthcare transition should be a planned process of discussing and preparing pediatric patients for the transition and then ensuring continued care as an adult; the greater the collaboration of pediatric and adult endocrinologists in this process, the greater the chance of a successful transition. (Endocr Pract. 2014;20:714-720)     

Notes on the Genus Elaeocarpus Linn. from China

The Chinese Elaeocarpus Linn. is revised. Here reported are those taxa with different treatment in “Fl. Reip. Pop. Sin. “, Tomus 49 (1), including one new species and one new variety: Elaeocarpus limitaneioides Y. Tang and E. glabripetalus var. grandifructus Y. Tang, Four species and two varieties are reduced: E. boreali-yunnanensis H. T. Chang is reduced to E. lacunosus Wall. ex Kurz; E. floribundioides H. T. Chang to E. austro-yunnanensis Hu; E. fengjieensis P. C. Tuan to E. duclouxii Gagnep .; E. kwangsiensis H .T. Chang to E. glabripetalus var. alatus(Knuth) H. T. Chang; E. glabripetalus var. teres H. T. Chang to E. glabripetalus var. glabripetalus ; E. prunifolioides var. rectinervis H. T. Chang to E. prunifolioides Hu. It is found that three species, E. rugosus Roxb., E. sikkimensis Mast. and E. decandrus Merr., were wrongly determined as E. apiculatus Mast., E. fleuryi Gagnep. and E. chinensis Hook. f., respectively. In the paper also reported are some provincial new records. The infrageneric systems are discussed briefly and the Masters’ system isfollowed with some modifications.     

Phasic Contractions in Urinary Bladder from Juvenile versus Adult Pigs

Aims

Alterations in properties of the bladder with maturation are relevant physiologically and pathophysiologically. The aim of this study was to investigate alterations in bladder properties with maturation in juvenile vs. adult pig, focussing on differences between layers of the bladder wall (mucosa vs. detrusor) and the presence and functional contribution of interstitial cells (ICs).

Methods

Basal and cholinergic-induced phasic contractions (PCs) in mucosal and denuded-detrusor strips from juvenile and adult pigs were assessed. Expression of c-kit, a marker of ICs, was investigated in the mucosa and the detrusor layers of the pig bladder. The functional role of ICs in mediating PCs was examined using imatinib.

Results

Mucosal strips from juvenile and adult pig bladders demonstrated basal PCs whilst denuded-detrusor strips did not. PCs of mucosal strips from juvenile pigs were significantly greater than those from adult bladders. Immunoreactivity for c-kit was detected in mucosa and detrusor layers of pig bladder. Histological studies demonstrated a distinct layer of smooth muscle between the urothelium and bladder detrusor, termed the muscularis mucosa. Imatinib was only effective in inhibiting PCs in mucosal strips from juvenile pigs. Imatinib inhibited the carbachol-induced PCs of both juvenile and adult denuded-detrusor strips, although strips from juvenile bladders demonstrated a trend towards being more sensitive to this inhibition.

Conclusions

We confirm the presence of c-kit positive ICs in pig urinary bladder. The enhanced PCs of mucosal strips from juvenile animals could be due to altered properties of ICs or the muscularis mucosa in the bladders of these animals.     

Features of Transition from Larva to Juvenile in Fishes with Different Types of Early Ontogeny

The transition from the larva state to the juvenile state (i.e. morphological condition characterised by mainly adult characters) was examined in three marine fish species: herring Clupea pallasi marisalbi, wolffish Anarhichas lupus, and eelpout Zoarces viviparus, based on external morphology and skeletal development. In spite of the different reproductive styles (oviparity, facultative viviparity, and obligate viviparity, respectively) and different types of early ontogeny (indirect, transitory, and direct, respectively), the beginning of the juvenile state occurred at similar total lengths (TL), which were approximated as 35 mm TL in herring and eelpout, and 32 mm TL in wolffish. Features of ontogeny were compared, assuming that the beginning of the juvenile state represented an uniform characteristic of morphological development for these species. It was proposed that the beginning of the larva or juvenile periods (sensu Balon) could not coincide with the beginning of the larva and juvenile states in the ontogeny of some species.     

The Release Rate of Environmental DNA from Juvenile and Adult Fish

The environmental DNA (eDNA) technique is expected to become a powerful, non-invasive tool for estimating the distribution and biomass of organisms. This technique was recently shown to be applicable to aquatic vertebrates by collecting extraorganismal DNA floating in the water or absorbed onto suspended particles. However, basic information on eDNA release rate is lacking, despite it being essential for practical applications. In this series of experiments with bluegill sunfish (Lepomis macrochirus), we examined the effect of fish developmental stage on eDNA release rate. eDNA concentration reached equilibrium 3 days after the individual fish were introduced into the separate containers, enabling calculation of the eDNA release rate (copies h⁻¹) from individual fish on the assumption that the number of eDNA released from the fish per unit time equals total degradation in the container (copies h⁻¹). The eDNA release rate was 3–4 times higher in the adult (body weight: 30–75 g) than in the juvenile group (0.5–2.0 g). Such positive relationship between fish size and eDNA release rate support the possibility of biomass rather than density estimation using eDNA techniques. However, the eDNA release rate per fish body weight (copies h⁻¹ g⁻¹) was slightly higher in the juvenile than the adult group, which is likely because of the ontogenetic reduction in metabolic activity. Therefore, quantitative eDNA data should be carefully interpreted to avoid overestimating biomass when the population is dominated by juveniles, because the age structure of the focal population is often variable and unseen in the field. eDNA degradation rates (copies l⁻¹ h⁻¹), calculated by curve fitting of time-dependent changes in eDNA concentrations after fish removal, were 5.1–15.9% per hour (half-life: 6.3 h). This suggests that quantitative eDNA data should be corrected using a degradation curve attained in the target field.     

Micropropagation of Elaeocarpus robustus Roxb.

Multiple shoots were obtained from shoot tips and nodal explants of 20-year-old trees of Elaeocarpus robustus on Murashige and Skoog's medium supplemented with 0.5 mg l^–1 each of BA and Kn. Explants taken from in vitro-proliferated shoots subsequently produced multiple shoots when cultured on the same basal medium containing 0.5 mg l^–1 each of BA and Kn. Repeated subculture resulted in rapid shoot multiplication at an average rate of 10 new shoots per subculture. The addition of CM (10%) and CH (100 mg l^–1) to the medium enhanced the number of shoots up to 20 per subculture and increased the length of shoots. In vitro-raised shoots were rooted on half-strength MS medium containing 1.0 mg l^–1 IBA and 0.5 mg l^–1 IAA. Following transplantation in the field 85% of the plantlets survived and grew uniformly. Received: 17 March 1995 / Revision received: 30 December 1997 / Accepted: 9 January 1998     

梨实生树不同发育区的叶片细胞学研究

采用显微分光光度计和显微图像分析仪比较研究了8年生梨实生树(Pyrus pyrifliaNakai)童区和成年区叶片细胞核 DNA含量、RNA含量和细胞、细胞核面积大小的差异。梨实生树从童区向成年区转变后,叶片内细胞核DNA含量上升,细胞内RNA合成加强,细胞和细胞核面积增大;同时,叶肉组织结构分化程度提高,叶面积增大,叶片加厚。     

Growth and Development of the Banana Plant: II. The Transition from the Vegetative to the Floral Shoot in Musa acuminata cv. Gros Michel

The changes that occur in the shoot apex of the banana, as itpasses from the vegetative to the flowering stage, are described.The crucial events occur well before floral primordia are evident,and they require a redistribution of activity in the variousgrowing regions. The vegetative shoot apex is in a central depressionin the rhizome; there is virtually no internodal growth in theaxis, the most active growth is in the leaf bases; vegetativebuds do not form in the leaf axils but only appear adventitiouslyfar from the tip of the shoot. With the onset of flowering thisis changed; growth in the axis itself, previously suppressed,occurs and flower buds arise as primordia in the axils of subtendingbracts. The bracts do not show the market growth in their baseswhich is so characteristic of leaves. Thus, the shoot apex risesto the level of the rhizome and then above it; as it does so,its tip changes in shape from a broad flattened some to a pointedcone. At the transitional stage, more activity occurs in thecells of the mantle, or tunica, which now consists of 3 to 4layers over the central dome. Below, in the central or mothercell zone of the corpus, which was quiescent in the vegetativeshoot, the cells spring into greater activity, becoming moreprotoplasmic and stain more deeply. Directly below this regionin the rib meristem, cells show transverse divisions. Bractprimordia occur high on the flanks of the apex, and, thoughthey originate in the manner of leaves, their subsequent growthis different. Flower primordia occur even in the axils of bractsclose to the shoot tip. Thus, the problem now is to designatethe source, nature, and mode of action of the stimuli whichinitiate and control this quite different distribution of growthin the floral, as contrasted with the vegetative, shoot. Thesignificance of the previously more quiescent central, or mothercell zone, of the apex as the source of such stimuli, is stressed.Thus, flowering first requires that the limiting controls whichapply to the vegetative shoot be released, and, secondly, thatthe apex of the shoot, rather than the leaf base, becomes themain centre of growth and development.     

Analysis of Gene Expression and Ultrastructure of Stifle Menisci from Juvenile and Adult Pigs

The origin of the age-associated degenerative processes in meniscal tissue is poorly understood and may be related to an imbalance of anabolic and catabolic metabolism. The aim of the current study was to compare medial menisci isolated from juvenile pigs and degenerated medial menisci from adult pigs in terms of gene expression profile and ultrastructure. Medial menisci were isolated from the knee joints of juvenile and adult pigs (n = 8 for each group). Degeneration was determined histologically according to a scoring system. In addition, the gene expression profiles of 14 genes encoding extracellular matrix proteins, catabolic matrix metalloproteinases and mediators of inflammation were analyzed. Changes in the ultrastructure of the collagen network of the meniscal tissue were analyzed by using transmission electron microscopy. The histologic analysis of menisci showed significantly higher grade of degeneration in tissue isolated from adult porcine knee joints compared with menisci isolated from juvenile knee joints. In particular, destruction of the collagen network was greater in adult menisci than in juvenile menisci. Degenerated menisci showed significantly decreased gene expression of COL1A1 and increased expression of MMP2, MMP13, and IL8. The menisci from adult porcine knee joints can serve as a model for meniscal degeneration. Degenerative changes were manifested as differences in histopathology, gene expression and ultrastructure of collagen network.Abbreviations: MMP, matrix metalloproteinase; SOX, sex-determining region box; VEGF, vascular endothelial growth factorMuch research is focused on the degeneration of connective tissue, particularly of the cartilage tissue that stabilizes the knee joint. The goal of the current study was to determine whether menisci in adult pigs show patterns of degeneration in the absence of previous major injuries, which might cause a secondary form of degeneration.In the mammalian knee joint, the incongruence between the femoral condyle and the tibial plateau is partially balanced by 2 C-shaped fibrocartilaginous menisci. These menisci absorb impact forces, help to distribute the mechanical load on the tibial plateau, and act as stabilizers of the knee joint.^35,54 Therefore, menisci are thought to play an important role in the development of osteoarthritis in knee joints,³⁹ as indicated by the results following meniscal resection.⁵⁸ Both injuries¹³ and degeneration⁴ of meniscal tissue increase the risk of osteoarthritis of the knee joint. Because the self-repair mechanisms of meniscal tissue appear to be inadequate,⁹ more than 1 million surgical interventions on menisci are performed every year in the United States.²⁷ In addition, degenerative changes in the meniscal tissue are believed to contribute to meniscal lesions.The main component of the meniscus is water (70%); and most of its dry weight is due to the protein collagen, mainly collagen I (98%).⁵⁷ The ultrastructure of meniscal tissue consists of collagen fibers that are orientated circumferentially in the superficial layers. The intermediate layer consists of tangentially orientated collagen fibers.¹⁵ Other proteins involved in the extracellular matrix of meniscal tissue include collagen II and the proteoglycan aggrecan.¹⁵In addition, biglycan and fibromodulin have been found in porcine menisci.⁴²The primary cells in meniscal tissue are chondrocytes which, in concert with fibroblasts, produce the extracellular matrix of fibrocartilage.⁵⁵ In addition, chondrocytes produce the lubricant lubricin,⁵⁶ which also is expressed in meniscal tissue.^24,49Meniscal degeneration can be understood as an imbalance between anabolic and catabolic processes, as it has already been shown for articular cartilage.² Changes in the gene expression of menisci from osteoarthritic knee joints including genes involved in immune and inflammatory responses as well as in tissue development have been previously shown.⁵² Furthermore, the production of the matrix proteins collagen types I, II, and III decreases during the progression of human meniscal degeneration.⁴³ Changes in the gene expression profile of anabolic genes (for example, collagen I, collagen II, aggrecan) and catabolic genes (for example, matrix metalloproteinases) are early indicators of osteoarthritis.^{2,14,22,26,34,51} Therefore, additional studies analyzing the gene expression profiles of healthy and degenerated menisci are warranted to evaluate whether such marker genes also exist for meniscal tissue. As a next step, the ultrastructure of degenerated meniscal tissue should be evaluated to analyze the influence of an altered gene expression profile on the extracellular matrix of menisci.In general, pigs are an appropriate animal model in biomedical research because of their similarities to humans in terms of anatomy and metabolism.^7,19,53 In meniscus research, goats³⁰ and sheeps are well-established animal models.^11,31,58 Nevertheless, the structure of porcine collagen is highly analogous to human collagen.³ This similarity was supported by the results of a comparison of the collagen in the hyaline cartilage among several species. ²⁵ Because pathogenesis for osteoarthritis is similar between human and animal tissue,³⁸ similarities in the pathophysiology of porcine and human meniscal tissue seem likely.The aim of the current study was to compare the medial menisci isolated from juvenile pigs with the degenerated medial menisci from adult pigs to determine whether differences in their gene expression profiles and ultrastructure are present.     

Comprehensive Research on Essential Oil and Phenolic Variation in Different Foeniculum vulgare Populations During Transition from Vegetative to Reproductive Stage

Chemical composition and antioxidant activity of four fennel populations (England, Spain, Poland and Iran) were investigated during six developmental stages including two vegetative and four reproductive phases. In reproductive phase, the essential oil content of fruits decreased and the maximum content (5.9%) was obtained in immediate fruits. The essential oils were analyzed using GC/MS. trans‐Anethole was the main component of the leaves and the fruits oil. In leaves, it ranged from 41.28% in England at late vegetative stage to 56.6% in Poland population at early vegetative stage. Other major compounds of leaves were limonene, α‐pinene and (Z)‐β‐ocimene. In reproductive phases the trans‐anethole increased dramatically. It varied from 85.25% in immature fruits from Poland to 90.7% in pre‐mature stage from Spain. The highest phenolic content in the extracts at different growth stages obtained 189 mg TAE/g DW at full mature stage of seed in Iran population. The flavonoid of leaves extract ranged from 3 to 7.5 mg QUE/g DW, while in fruits extract varied from 3 to 10.3 mg QUE/g DW. Antioxidant activity of the extracts was evaluated using 1,1‐diphenyl‐2‐picrylhydrazy (DPPH) and β‐carotene model systems. Immature and full mature growth stages of fennel population from Spain indicated the highest activity in quenching of DPPH radical (74.2% and 74.5, respectively). Antioxidant activities of the extracts had high positive correlation with their phenolic contents in all fruit maturity stages. Finally, it might probably be suggested that in fennel the hot and humid condition can lead to increase trans‐anethole, while the hot and dry one can produce higher amount of phenolics and flavonoids.     

Lectin in Vegetative Tissues of Adult Barley Plants Grown under Field Conditions

A study of the distribution of lectins over different vegetative tissues of barley (Hordeum vulgare L.) plants, which were grown under normal crop conditions, indicated that lectin occurs in roots, leaves, and developing ears. Isolation and characterization of both root and leaf lectins led to the conclusions (a) that they are indistinguishable from the embryo lectin and (b) that the total lectin content of these vegetative organs is many times higher than that of the embryo. Finally, in vivo labeling experiments demonstrated that the lectin is synthesized de novo in roots and leaves.     

Anti-babesial ellagic acid rhamnosides from the bark of Elaeocarpus parvifolius

Bioassay-guided investigation of the bark of Elaeocarpus parvifolius led to the isolation of three new ellagic acid derivatives, 4-O-methylellagic acid 3'-alpha-rhamnoside (2), 4-O-methylellagic acid 3'-(3'-O-acetyl)-alpha-rhamnoside (3), and 4-O-methylellagic acid 3'-(4'-O-acetyl)-alpha-rhamnoside (4) in addition to the known ellagic acid derivative, 4-O-methylellagic acid 3'-(2',3'-di-O-acetyl)-alpha-rhamnoside (1). Their structures were elucidated on the basis of analysis of 1H NMR, 13C NMR, HMQC, HMBC and MS spectroscopic data. Compounds 1-4 were evaluated for their growth-inhibitory effect on Babesia gibsoni in vitro. Compounds 2 and 4 showed very weak activity, while compounds 1 and 3 showed moderate activity, with IC50 values of 28.5 and 52.1 microg/ml, respectively.     

麻雀幼鸟和成鸟逃逸距离的比较

逃逸是鸟类常用的反捕食手段。自然选择会优化鸟类的逃逸距离,以便在躲避被捕食风险和保持能量之间做出权衡。理论模型预测动物个体可依据期望寿命来调整自身的行为：期望寿命短的个体倾向于风险偏好,即逃逸距离短;而期望寿命长的个体倾向于风险回避,即逃逸距离长。同时,逃逸距离还受到外部因素（如人为干扰强度、鸟类群体大小）的影响。本研究在北京城区收集了麻雀（Passer montanus）145只成鸟和75只幼鸟的逃逸距离数据,发现麻雀成鸟比幼鸟有着更长的逃逸距离,且成鸟更可能是群体中首先逃逸的个体。此外,研究发现麻雀的逃逸距离随着人为干扰强度的增加而降低,随着群体大小增加而增加。本研究结果符合理论预期：存活率高的类群（成鸟）有着更长的逃逸距离。     

Inhibition or Knockdown of ABC Transporters Enhances Susceptibility of Adult and Juvenile Schistosomes to Praziquantel

Parasitic flatworms of the genus Schistosoma cause schistosomiasis, a neglected tropical disease that affects hundreds of millions. Treatment of schistosomiasis depends almost entirely on the drug praziquantel (PZQ). Though essential to treating and controlling schistosomiasis, a major limitation of PZQ is that it is not active against immature mammalian-stage schistosomes. Furthermore, there are reports of field isolates with heritable reductions in PZQ susceptibility, and researchers have selected for PZQ-resistant schistosomes in the laboratory. P-glycoprotein (Pgp; ABCB1) and other ATP binding cassette (ABC) transporters remove a wide variety of toxins and xenobiotics from cells, and have been implicated in multidrug resistance (MDR). Changes in ABC transporter structure or expression levels are also associated with reduced drug susceptibility in parasitic helminths, including schistosomes. Here, we show that the activity of PZQ against schistosome adults and juveniles ex vivo is potentiated by co-administration of either the highly potent Pgp inhibitor tariquidar or combinations of inhibitors targeting multiple ABC multidrug transporters. Adult worms exposed to sublethal PZQ concentrations remain active, but co-administration of ABC transporter inhibitors results in complete loss of motility and disruption of the tegument. Notably, juvenile schistosomes (3–4 weeks post infection), normally refractory to 2 µM PZQ, become paralyzed when transporter inhibitors are added in combination with the PZQ. Experiments using the fluorescent PZQ derivative (R)-PZQ-BODIPY are consistent with the transporter inhibitors increasing effective intraworm concentrations of PZQ. Adult worms in which expression of ABC transporters has been suppressed by RNA interference show increased responsiveness to PZQ and increased retention of (R)-PZQ-BODIPY consistent with an important role for these proteins in setting levels of PZQ susceptibility. These results indicate that parasite ABC multidrug transporters might serve as important targets for enhancing the action of PZQ. They also suggest a potentially novel and readily-available strategy for overcoming reduced PZQ susceptibility of schistosomes.