Metabolic engineering of astaxanthin biosynthesis in maize endosperm and characterization of a prototype high oil hybrid

Maize was genetically engineered for the biosynthesis of the high value carotenoid astaxanthin in the kernel endosperm. Introduction of a β-carotene hydroxylase and a β-carotene ketolase into a white maize genetic background extended the carotenoid pathway to astaxanthin. Simultaneously, phytoene synthase, the controlling enzyme of carotenogenesis, was over-expressed for enhanced carotenoid production and lycopene ε-cyclase was knocked-down to direct more precursors into the β-branch of the extended ketocarotenoid pathway which ends with astaxanthin. This astaxanthin-accumulating transgenic line was crossed into a high oil- maize genotype in order to increase the storage capacity for lipophilic astaxanthin. The high oil astaxanthin hybrid was compared to its astaxanthin producing parent. We report an in depth metabolomic and proteomic analysis which revealed major up- or down- regulation of genes involved in primary metabolism. Specifically, amino acid biosynthesis and the citric acid cycle which compete with the synthesis or utilization of pyruvate and glyceraldehyde 3-phosphate, the precursors for carotenogenesis, were down-regulated. Nevertheless, principal component analysis demonstrated that this compositional change is within the range of the two wild type parents used to generate the high oil producing astaxanthin hybrid

New XEN63 Gel Stent Implantation in Open-Angle Glaucoma: A Two-Year Follow-Up Pilot Study

Bogomil Voykov, Emil Nasyrov, Jonas Neubauer, Caroline J Gassel Centre for Ophthalmology, University Hospital Tuebingen, Tuebingen, GermanyCorrespondence: Bogomil Voykov, Centre for Ophthalmology, University Hospital Tuebingen, Elfriede-Aulhorn-Str. 7, Tuebingen, 72076, Germany, Tel +49 7071 2988088, Fax +49 7071 295455, Email [email protected]: The XEN gel stent was developed to reduce the risks of filtration surgery by standardizing the outflow of aqueous humor into the subconjunctival space. Recently, a modified version of the XEN63 gel stent was introduced. The goal of this study was to assess its efficacy and safety.Methods: This is a prospective, nonrandomized, observational, consecutive case series study at a single tertiary centre. Patients with open-angle glaucoma with above target intraocular pressure (IOP) despite maximal tolerated medication were included. The primary outcome was a change of median IOP. Secondary outcomes included a change in the number of medications, complete success, needling and complication rates. Success was defined as a lowering of IOP > 20% from baseline and IOP ≤ 14 mmHg. Complete success indicated that the target IOP was reached without medications.Results: Six patients were included. The median IOP decreased from 35.5 mmHg (25.0– 40.0 mmHg) at baseline to 11.5 mmHg (4.0– 15.0 mmHg, p = 0.03), and median IOP-lowering medication was reduced from 4.0 (3.0– 4.0) at baseline to 0 (0– 1.0, p = 0.03) after two years. Five patients (83.0%) had a complete success after two years. Two patients (33.0%) required a needling procedure. Three patients (50.0%) required an intervention due to symptomatic hypotony within the first three weeks postoperatively. Hypotony resolved completely or was asymptomatic after three months.Conclusion: Our study demonstrated a statistically significant reduction in both IOP and number of IOP-lowering medications. Complications were well manageable and had no long-term sequelae.Keywords: open-angle glaucoma, filtering surgery, minimally invasive surgery, glaucoma gel sten

Millimeter-sized marine plastics: a new pelagic habitat for microorganisms and invertebrates

Millimeter-sized plastics are abundant in most marine surface waters, and known to carry fouling organisms that potentially play key roles in the fate and ecological impacts of plastic pollution. In this study we used scanning electron microscopy to characterize biodiversity of organisms on the surface of 68 small floating plastics (length range = 1.7–24.3 mm, median = 3.2 mm) from Australia-wide coastal and oceanic, tropical to temperate sample collections. Diatoms were the most diverse group of plastic colonizers, represented by 14 genera. We also recorded ‘epiplastic’ coccolithophores (7 genera), bryozoans, barnacles (Lepas spp.), a dinoflagellate (Ceratium), an isopod (Asellota), a marine worm, marine insect eggs (Halobates sp.), as well as rounded, elongated, and spiral cells putatively identified as bacteria, cyanobacteria, and fungi. Furthermore, we observed a variety of plastic surface microtextures, including pits and grooves conforming to the shape of microorganisms, suggesting that biota may play an important role in plastic degradation. This study highlights how anthropogenic millimeter-sized polymers have created a new pelagic habitat for microorganisms and invertebrates. The ecological ramifications of this phenomenon for marine organism dispersal, ocean productivity, and biotransfer of plastic-associated pollutants, remains to be elucidated

Neurobiology of Sleep-Related Movements

Sleep-related movements comprise a broad spectrum of simple and usually stereotyped movements that are sometimes associated with sleep disturbance (insomnia, sleep fragmentation, and non-restorative sleep). They may represent a physiological variant or a sleep disorder, depending on their intensity, frequency, and associated sleep disruption degree. Sleep-related movements involve usually the lower limbs; they can be idiopathic or associated with other sleep disorders, neurological disease, and medical condition or occur as a consequence of drug use. Several pathophysiological hypotheses have been proposed, but for the majority of these disorders, the neurobiological mechanism is far from being completely understood. Further studies are needed to elucidate the pathophysiology of sleep-related movements in order to better appreciate their clinical significance. This chapter describes the neurobiology of sleep-related movements, namely, periodic limb movements, alternating leg muscle activation, hypnagogic foot tremor, high-frequency myoclonus, excessive fragmentary myoclonus, propriospinal myoclonus at sleep onset, neck myoclonus during sleep, sleep bruxism, sleep-related rhythmic movement disorder, sleep-related leg cramps, and sleep starts. We also present a mechanistic model of the potential role of the spinal central pattern generator for locomotion in generating the leg movements