Sedum cools soil and can improve neighboring plant performance during water deficit on a green roof

Green roofs have the potential to function as islands of biodiversity within urban and suburban environments. However, plant diversity is constrained by the harsh environment of a green roof, especially summertime water deficit and heat stress. We hypothesized that Sedum species, which are highly tolerant of the roof-top environment, would reduce peak soil temperature and increase performance of neighboring plants during summer water deficit. To test these hypotheses, we grew focal plant species with and without Sedum on a green roof. We then monitored growth during wet periods and drought tolerance during dry periods. During a three-year experiment, S. album reduced maximum growth of neighbor plants, Agastache rupestris and Asclepias verticillata, during favorable growth conditions, but increased performance of neighbors during summer water deficit. In a second experiment, four species of Sedum were each found to decrease peak soil temperature by 5-7 °C. All species decreased total growth of neighboring Agastache ‘Black Adder’ during favorable growth conditions, but again increased performance during summer water deficit. These results suggest that the palette of green roof plants can be expanded by using Sedum species as nurse plants.     

Tiered Categorization of a Diverse Panel of HIV-1 Env Pseudoviruses for Assessment of Neutralizing Antibodies

The restricted neutralization breadth of vaccine-elicited antibodies is a major limitation of current human immunodeficiency virus-1 (HIV-1) candidate vaccines. In order to permit the efficient identification of vaccines with enhanced capacity for eliciting cross-reactive neutralizing antibodies (NAbs) and to assess the overall breadth and potency of vaccine-elicited NAb reactivity, we assembled a panel of 109 molecularly cloned HIV-1 Env pseudoviruses representing a broad range of genetic and geographic diversity. Viral isolates from all major circulating genetic subtypes were included, as were viruses derived shortly after transmission and during the early and chronic stages of infection. We assembled a panel of genetically diverse HIV-1-positive (HIV-1⁺) plasma pools to assess the neutralization sensitivities of the entire virus panel. When the viruses were rank ordered according to the average sensitivity to neutralization by the HIV-1⁺ plasmas, a continuum of average sensitivity was observed. Clustering analysis of the patterns of sensitivity defined four subgroups of viruses: those having very high (tier 1A), above-average (tier 1B), moderate (tier 2), or low (tier 3) sensitivity to antibody-mediated neutralization. We also investigated potential associations between characteristics of the viral isolates (clade, stage of infection, and source of virus) and sensitivity to NAb. In particular, higher levels of NAb activity were observed when the virus and plasma pool were matched in clade. These data provide the first systematic assessment of the overall neutralization sensitivities of a genetically and geographically diverse panel of circulating HIV-1 strains. These reference viruses can facilitate the systematic characterization of NAb responses elicited by candidate vaccine immunogens.The development of an HIV-1 vaccine that can elicit protective humoral and cellular immunity is one of the highest priorities in the global fight against HIV/AIDS (2, 44). Data from lentiviral animal models suggest that antibodies capable of neutralizing primary strains of HIV-1 may have the capacity to prevent HIV-1 infection (1, 28, 30, 35). However, the ability to design immunogens that can elicit such broadly reactive neutralizing antibodies (NAbs) has proven to be a formidable obstacle, due in part to the extensive genetic diversity of HIV-1 and the complex escape mechanisms employed by the envelope gp120 and gp41 glycoproteins that form the trimeric viral envelope spike (Env) (20, 34, 45). As improved vaccine immunogens enter the stage of detailed preclinical analysis, the in vitro assays used for evaluating vaccine sera will need to detect incremental advances in the magnitude, breadth, and durability of NAb responses (37). Such data can then be used to distinguish and prioritize among antibody-based vaccine immunogens. Furthermore, highly reproducible and quantitative data on vaccine-elicited NAbs can enhance our understanding of the relationship between Env immunogen design and the resulting antibody response generated.Current recommendations for evaluating candidate vaccine sera for NAb activity include the use of standard reference panels of molecularly cloned HIV-1 Env pseudoviruses and a tiered algorithm of testing (27). Reference virus panels should represent genetically and geographically diverse subsets of viruses with neutralization phenotypes that are generally representative of primary isolate strains that a vaccine would need to protect against. As such, standard reference panels for HIV-1 subtypes B and C have been described (22, 23), and efforts continue toward the creation of virus reference panels representing additional genetic subtypes. For tiered evaluation of NAb activity, vaccine sera are first tested against homologous Env pseudoviruses and/or a small number of isolates that are known to be highly sensitive to antibody-mediated neutralization (commonly referred to as tier 1 viruses). A more rigorous assessment of the potency and breadth of vaccine-induced NAbs entails testing against more resistant reference panel viruses (commonly referred to as tier 2 viruses) that are either matched or mismatched in genetic subtype to the vaccine immunogen (second and third tiers of testing, respectively). This tiered approach for testing candidate HIV-1 vaccine sera is advantageous in that it provides increasingly stringent levels for assessing the potency and breadth of NAbs, uses standardized panels of reference viruses for consistency and reproducibility, and allows for the generation of comparative data sets for evaluating different candidate vaccine regimens.While the tiered algorithm for evaluating vaccine sera has gained acceptance in the field, a major limitation has been the lack of objective data to characterize HIV-1 Env pseudoviruses according to their overall sensitivity or resistance to antibody-mediated neutralization. The category of sensitive, tier 1 viruses arose in part from the observation that HIV-1 isolates passaged through T-cell lines often become highly sensitive to antibody-mediated neutralization (33). Compared to these laboratory-adapted viruses, most primary isolate strains are moderately resistant to NAbs. Yet, even among recently isolated circulating viral Envs, there is a wide spectrum of neutralization sensitivity. Some HIV-1 isolates have a neutralization phenotype closer to that of tier 1 viruses, while others appear to be quite neutralization resistant (6, 19, 22, 23). Overall, there are few data from which to understand or categorize the viral neutralization phenotypes of HIV-1 strains. As a result, we have a limited ability to assess the potential potency of vaccine-elicited NAbs or to estimate the percentage of circulating HIV-1 isolates that would be neutralized. Further categorization of isolates into distinct subgroups based on sensitivity to NAbs may reveal patterns of neutralization that could provide a greater understanding of the NAb response generated by current and future vaccine immunogens. In addition, the structure-based design of novel immunogens may be facilitated by an ability to monitor the types of viruses neutralized and to specifically map the viral epitopes targeted by vaccine-elicited NAbs.In this study, we assembled a diverse panel of 109 HIV-1 Env pseudoviruses, including multiple representatives from clades A, B, and C and circulating recombinant forms (CRFs) CRF07_BC and CRF02_AG-related. These were tested for their sensitivities using HIV-1-positive (HIV-1⁺) plasma samples representative of clades A, B, and C and CRF01_AE and CRF02_AG. Clinical, demographic, and viral genetic sequence data were collected for each virus. The neutralization phenotype of each virus was assessed with a panel of seven clade-specific HIV-1⁺ plasma pools. Viruses were rank ordered according to average neutralization sensitivity, and k-means clustering was utilized to identify four subgroups of viruses with neutralization phenotypes ranging from highly sensitive to resistant. Together, these results will improve the ability to rigorously evaluate antibody-based HIV-1 vaccines and will facilitate the interpretation of assay results to identify immunogens with improved capacity to elicit broadly cross-reactive NAbs.     

Habitat Characteristics of Forest Fragments Determine Specialisation of Plant-Frugivore Networks in a Mosaic Forest Landscape

Plant-frugivore networks play a key role in the regeneration of sub-tropical forest ecosystems. However, information about the impact of habitat characteristics on plant-frugivore networks in fragmented forests is scarce. We investigated the importance of fruit abundance, fruiting plant species richness and canopy cover within habitat fragments for the structure and robustness of plant-frugivore networks in a mosaic forest landscape of South Africa. In total, 53 avian species were involved in fruit removal of 31 fleshy-fruiting plant species. Species specialisation was always higher for plants than for frugivores. Both species and network-level specialisation increased with increasing fruit abundance and decreased with increasing fruiting plant species richness and canopy cover within fragments. Interaction diversity was unaffected by fruit abundance and canopy cover, but increased slightly with increasing fruiting plant species richness. These findings suggest that especially the availability of resources is an important determinant of the structure of plant-frugivore networks in a fragmented forest landscape.     

HUA2 is required for the expression of floral repressors in Arabidopsis thaliana

The HUA2 gene acts as a repressor of floral transition. Lesions in hua2 were identified through a study of natural variation and through two mutant screens. An allele of HUA2 from Landsberg erecta (Ler) contains a premature stop codon and acts as an enhancer of early flowering 4 (elf4) mutants. hua2 single mutants, in the absence of the elf4 lesion, flower earlier than wild type under short days. hua2 mutations partially suppress late flowering in FRIGIDA (FRI )-containing lines, autonomous pathway mutants, and a photoperiod pathway mutant. hua2 mutations suppress late flowering by reducing the expression of several MADS genes that act as floral repressors including FLOWERING LOCUS C (FLC ) and FLOWERING LOCUS M (FLM ).     

Caprylic acid‐induced impurity precipitation from protein A capture column elution pool to enable a two‐chromatography‐step process for monoclonal antibody purification

This article presents the use of caprylic acid (CA) to precipitate impurities from the protein A capture column elution pool for the purification of monoclonal antibodies (mAbs) with the objective of developing a two chromatography step antibody purification process. A CA‐induced impurity precipitation in the protein A column elution pool was evaluated as an alternative method to polishing chromatography techniques for use in the purification of mAbs. Parameters including pH, CA concentrations, mixing time, mAb concentrations, buffer systems, and incubation temperatures were evaluated on their impacts on the impurity removal, high‐molecular weight (HMW) formation and precipitation step yield. Both pH and CA concentration, but not mAb concentrations and buffer systems, are key parameters that can affect host–cell proteins (HCPs) clearance, HMW species, and yield. CA precipitation removes HCPs and some HMW species to the acceptable levels under the optimal conditions. The CA precipitation process is robust at 15–25°C. For all five mAbs tested in this study, the optimal CA concentration range is 0.5–1.0%, while the pH range is from 5.0 to 6.0. A purification process using two chromatography steps (protein A capture column and ion exchange polishing column) in combination with CA‐based impurity precipitation step can be used as a robust downstream process for mAb molecules with a broad range of isoelectric points. Residual CA can be effectively removed by the subsequent polishing cation exchange chromatography. © 2015 American Institute of Chemical Engineers Biotechnol. Prog., 31:1515–1525, 2015     

Role of Tropomyosin in Formin-mediated Contractile Ring Assembly in Fission Yeast

Like animal cells, fission yeast divides by assembling actin filaments into a contractile ring. In addition to formin Cdc12p and profilin, the single tropomyosin isoform SpTm is required for contractile ring assembly. Cdc12p nucleates actin filaments and remains processively associated with the elongating barbed end while driving the addition of profilin-actin. SpTm is thought to stabilize mature filaments, but it is not known how SpTm localizes to the contractile ring and whether SpTm plays a direct role in Cdc12p-mediated actin polymerization. Using “bulk” and single actin filament assays, we discovered that Cdc12p can recruit SpTm to actin filaments and that SpTm has diverse effects on Cdc12p-mediated actin assembly. On its own, SpTm inhibits actin filament elongation and depolymerization. However, Cdc12p completely overcomes the combined inhibition of actin nucleation and barbed end elongation by profilin and SpTm. Furthermore, SpTm increases the length of Cdc12p-nucleated actin filaments by enhancing the elongation rate twofold and by allowing them to anneal end to end. In contrast, SpTm ultimately turns off Cdc12p-mediated elongation by “trapping” Cdc12p within annealed filaments or by dissociating Cdc12p from the barbed end. Therefore, SpTm makes multiple contributions to contractile ring assembly during and after actin polymerization.     

Low-dose pramlintide reduced food intake and meal duration in healthy, normal-weight subjects

Objective: We previously reported that a single preprandial injection (120 μg) of pramlintide, an analog of the β‐cell hormone amylin, reduced ad libitum food intake in obese subjects. To further characterize the meal‐related effects of amylin signaling in humans, we studied a lower pramlintide dose (30 μg) in normal‐weight subjects. Research Methods and Procedures: In a randomized, double‐blind, placebo‐controlled, cross‐over study, 15 healthy men (age, 24 ± 7 years; BMI, 22.2 ± 1.8 kg/m²) underwent a standardized buffet meal test on two occasions. After an overnight fast, subjects received a single subcutaneous injection of pramlintide (30 μg) or placebo, followed immediately by a standardized pre‐load meal. After 1 hour, subjects were offered an ad libitum buffet meal, and total caloric intake and meal duration were measured. Results: Compared with placebo, pramlintide reduced total caloric intake (1411 ± 94 vs. 1190 ± 117 kcal; Δ, ?221 ± 101 kcal; ?14 ± 9%; p = 0.05) and meal duration (36 ± 2 vs. 31 ± 3 minutes; Δ, ?5.1 ± 1.4 minutes; p < 0.005). Visual analog scale profiles of hunger trended lower and fullness higher during the first hour after pramlintide administration. In response to the buffet, hunger and fullness changed to a similar degree after pramlintide and placebo, despite subjects on pramlintide consuming 14% fewer kilocalories. Visual analog scale nausea ratings remained near baseline, without differences between treatments. Plasma peptide YY, cholecystokinin, and ghrelin concentrations did not differ with treatment, whereas glucagon‐like peptide‐1 concentrations after meals were lower in response to pramlintide than to placebo. Discussion: These observations add support to the concept that amylin agonism may have a role in human appetite control.