Embracing native diversity to enhance the maximum quantum efficiency of photosystem II in maize.

The sustainability of maize cultivation would benefit tremendously from early sowing, but is hampered by low temperatures during early development in temperate climates. We show that allelic variation within the gene encoding subunit M of the NADH-dehydrogenase-like (NDH) complex (ndhm1) in a European maize landrace affects several quantitative traits that are relevant during early development in cold climates through NDH-mediated cyclic electron transport around photosystem I, a process crucial for photosynthesis and photoprotection. Beginning with a genome-wide association study for maximum potential quantum yield of photosystem II in dark-adapted leaves (Fv/Fm), we capitalized on the large phenotypic effects of a hAT transposon insertion in ndhm1 on multiple quantitative traits (early plant height [EPH], Fv/Fm, chlorophyll content, and cold tolerance) caused by the reduced protein levels of NDHM and associated NDH components.

Optimizing in vivo exposure using occasional reinforced extinction with aversive imagery in spider fearful individuals.

Although exposure-based therapy is widely recognized as effective for treating various anxiety disorders, a significant proportion of patients fail to benefit or experience a return of fear following successful treatment. One promising strategy involves occasional presentation of fear-evoking stimuli during extinction (occasional reinforced extinction, ORE). This study investigates a novel approach to translate ORE into clinical practice by incorporating occasional vivid imagery of individuals' worst-case fear scenarios during in-vivo exposure.

Leveraging occasional reinforced extinction via mental imagery of the unconditioned stimulus to optimize extinction learning.

Occasionally presenting the unconditioned stimulus (US) during extinction training (occasional reinforced extinction, ORE) either unpaired or paired with the conditioned stimulus (CS) provides initial evidence for a less pronounced return of fear. However, translating this approach into clinical practice is challenging due to ethical and practical concerns of exposing patients to the original USs. The present study investigated extinction of fear responses in a novel approach employing ORE using vivid fear imagery of the US instead of actually exposing to it.

Alleles of a wall-associated kinase gene account for three of the major northern corn leaf blight resistance loci in maize.

Northern corn leaf blight, caused by the fungal pathogen Setosphaeria turcica (anamorph Exserohilum turcicum), is one of the most devastating foliar diseases of maize (Zea mays). Four genes Ht1, Ht2, Ht3 and Htn1 represent the major sources of genetic resistance against the hemibiotrophic fungus S. turcica.

Fungal resistance mediated by maize wall-associated kinase ZmWAK-RLK1 correlates with reduced benzoxazinoid content.

Wall-associated kinases (WAKs) have recently been identified as major components of fungal and bacterial disease resistance in several cereal crop species. However, the molecular mechanisms of WAK-mediated resistance remain largely unknown. Here, we investigated the function of the maize gene ZmWAK-RLK1 (Htn1) that confers quantitative resistance to northern corn leaf blight (NCLB) caused by the hemibiotrophic fungal pathogen Exserohilum turcicum.

The maize disease resistance gene Htn1 against northern corn leaf blight encodes a wall-associated receptor-like kinase.

Northern corn leaf blight (NCLB) caused by the hemibiotrophic fungus Exserohilum turcicum is an important foliar disease of maize that is mainly controlled by growing resistant maize cultivars. The Htn1 locus confers quantitative and partial NCLB resistance by delaying the onset of lesion formation. Htn1 represents an important source of genetic resistance that was originally introduced from a Mexican landrace into modern maize breeding lines in the 1970s.

Selection strategies for the development of maize introgression populations.

Introgression libraries are valuable resources for QTL detection and breeding, but their development is costly and time-consuming. Selection strategies for the development of introgression populations with a limited number of individuals and high-throughput (HT) marker assays are required. The objectives of our simulation study were to design and compare selection strategies for the development of maize introgression populations of 100 lines with population sizes of 360-720 individuals per generation for different DH and S2 crossing schemes.

Reduced number of intrinsic pulmonary nitrergic neurons in Fawn-Hooded rats as compared to control rat strains.

The Fawn-Hooded rat (FHR) strain reveals a congenital predisposition to primary (idiopathic) pulmonary hypertension (PPH), and can therefore be regarded as an animal model in which to study possible mechanisms underlying an inherited susceptibility to pulmonary hypertension. Pulmonary hypertension can be induced in FHRs after a short exposure to mild hypoxia, presumably because of an altered peripheral oxygen sensitivity. Given the presence of pulmonary nitrergic neurons in rat lungs, the observed link between airway hypoxia and the expression of pulmonary neuronal nitric oxide synthase (nNOS), and the fact that nNOS appears to be involved in peripheral chemoreceptor sensitivity, we examined the intrinsic pulmonary nitrergic innervation in the FHR.

Distribution, immunohistochemical characteristics and nerve pathways of primary sensory neurons supplying the porcine vas deferens.

The present study investigated: (1) the distribution and chemical coding of primary sensory neurons supplying the vas deferens in juvenile pigs by the use of retrograde tracing combined with double-labelling immunofluorescence, (2) nerve pathways from dorsal root ganglia (DRG) to the vas deferens by means of denervation procedures involving transection of the hypogastric or pelvic nerve combined with a retrograde tracing method, and (3) possible interactions of the substance P (SP)/calcitonin gene-related peptide (CGRP)-immunoreactive varicose nerve fibres on vas deferens projecting neurons (VDPN) in the anterior pelvic ganglion (APG). The vast majority of VDPN were found mainly in the lumbar L2, L3 and sacral S2, S3 pairs of DRG and showed a clear ipsilaterally organized projection pattern. Immunohistochemistry revealed that most of these neurons contained SP and/or CGRP, occasionally coexpressed with galanin.

Neuroepithelial bodies: a morphologic substrate for the link between neuronal nitric oxide and sensitivity to airway hypoxia?

Currently, the significance of nitric oxide (NO) in the respiratory tract is a matter of great interest because NO is believed to play a major role in the physiological regulation of airway function but also in lung pathology. What is especially intriguing with respect to the present investigation, are reports that the pulmonary expression of neuronal NO synthase (nNOS) is altered as a result of airway hypoxia. We examined the possible relationship between intrapulmonary nitrergic structures and pulmonary neuroepithelial bodies (NEBs), chemoreceptor-like epithelial cell groups that are known to have all necessary components for oxygen perception.

The longitudinal smooth muscle layer of the pig small intestine is innervated by both myenteric and submucous neurons.

Originally, intestinal motility was thought to be exclusively regulated by myenteric neurons. Some years ago, however, it was demonstrated in large mammals that submucous neurons also participate in the innervation of the circular smooth muscle layer. To date, no information is available about the submucous innervation of the longitudinal smooth muscle layer (LM).

Neither axotomy nor target-tissue inflammation changes the NOS- or VIP-synthesis rate in distal bowel-projecting neurons of the porcine inferior mesenteric ganglion (IMG).

The present study was aimed at disclosing axotomy- and inflammation-induced changes in the chemical coding of retrogradely labelled distal bowel-projecting neurons in the porcine IMG. Particular attention was paid to the changes in the expression pattern of vasoactive intestinal polypeptide and nitric oxide synthase (as a marker of nitric oxide) in affected cells, as these substances are thought to play a crucial role in the regeneration of injured sympathetic neurons. However, while both pathological processes failed to induce an increase in the number of sympathetic bowel-projecting neurons exhibiting vasoactive intestinal polypeptide or nitric oxide synthase, axotomy, but not target-tissue inflammation, led to the upregulation in the expression pattern of galanin, pituitary adenylate cyclase-activating peptide and/or Leu5-enkephalin in the affected perikarya.

Immunohistochemical localization of voltage-activated calcium channels in the rat oesophagus.

Voltage-activated calcium channels play an important role in the physiology of the enteric nervous system. To determine which types of voltage-activated calcium channels are present in the rat oesophagus, an immunohistochemical study was performed using specific antibodies for the alpha1 subunits of Cav2.1 (P/Q-type), Cav2.

Ca2+ involvement in the action potential generation of myenteric neurones in the rat oesophagus.

Intracellular recordings were used to study the physiological behaviour of rat oesophageal myenteric neurones, which are embedded in striated muscle. Injection of depolarizing pulses evoked action potentials with a clear 'shoulder' in all neurones. This shoulder disappeared under low Ca2+/high Mg2+ conditions.

Triple immunofluorescence staining with antibodies raised in the same species to study the complex innervation pattern of intrapulmonary chemoreceptors.

A general problem in immunocytochemistry is the development of a reliable multiple immunolabeling method when primary antibodies must be used that originate in the same species. We have developed a protocol for the immunodetection of three antigens in a single tissue preparation, using unconjugated primary antibodies raised in the same species. Immunocytochemical detection of neuronal nitric oxide synthase, calcitonin gene-related peptide, and calbindin D28k in the lung of rats demonstrated that part of the pulmonary neuroepithelial bodies are selectively contacted by at least three different nerve fiber populations.

Neuroendocrine epithelial cells in the broncho-parabronchial transition of embryonic, immature and mature quail (Coturnix coturnix).

The main objective of this integrated light microscopic, transmission and scanning electron microscopic study was to describe in greater detail the structural pattern and developmental stages of pulmonary neuroendocrine epithelial cells (PNECs) in the broncho-parabronchial transition (BPT) of both developing and mature quail. In mature quail the BPT appeared as a diaphragm opening into the parabronchial vestibulum. Perpendicular sections revealed two bilayered crest-like entrance folds invested by a uniform population of granular cells with lamellar bodies and a brush border of blunt microvilli.

Functional implications of extensive new data on the innervation of pulmonary neuroepithelial bodies.

Pulmonary neuroepithelial bodies (NEBs) are innervated organoid groups of neuroendocrine cells, present in the epithelial lining of intrapulmonary airways of man and all air-breathing vertebrates studied so far. NEBs receive a vagal nodose sensory innervation that is considered by other authors as their main, if not their only innervation, although apparently not needed for the normal development and maintenance of NEBs. In the present study of NEBs in the developing rat lung (gestational day 16 - adult), immunoreactivity (IR) for calcitonin gene-related peptide (CGRP; a marker for NEBs), protein gene product 9.

Differences in the distribution and chemical coding between neurons in the inferior mesenteric ganglion supplying the colon and rectum in the pig.

The distribution and chemical coding of neurons in the porcine left and right inferior mesenteric ganglion projecting to the ascending colon and rectum have been investigated by using combined retrograde tracing and double-labelling immunohistochemistry. The ganglion contained many neurons supplying both gut regions. The colon-projecting neurons (CPN) occurred exclusively in the cranial part of the ganglia where they formed a large cluster distributed along the dorso-lateral ganglionic border and a smaller cluster located close to the caudal colonic nerve output.

Excitatory synaptic inputs on myenteric Dogiel type II neurones of the pig ileum.

The synaptic input on myenteric Dogiel type II neurones (n = 63) obtained from the ileum of 17 pigs was studied by intracellular recording. In 77% of the neurones, electrical stimulation of a fibre tract evoked fast excitatory postsynaptic potentials (fEPSPs) with an amplitude of 6 +/- 5 mV (mean +/- S.D.

Morphological and neurochemical identification of enteric neurones with mucosal projections in the human small intestine.

Data on the axonal projections of enteric neurones in the human intestine are still scarce. The present study aimed to identify the morphology and neurochemical coding of enteric neurones in the human small intestine, which are involved in the innervation of the mucosa. The lipophilic neuronal tracer DiI was applied to one mucosal villus of small intestinal resection specimens.

Electrophysiological features of morphological Dogiel type II neurons in the myenteric plexus of pig small intestine.

By intracellular recording, 99 myenteric neurons with Dogiel type II morphology were electrophysiologically characterized in the porcine ileum and further subdivided into three groups based on their different types of afterhyperpolarization (AHP). In response to a depolarizing current injection, a fast AHP (fAHP; duration 34 +/- 11 ms; amplitude -11 +/- 6 mV; mean +/- SD) immediately followed every action potential in all neurons. In 32% of the neurons, this fAHP was the sole type of hyperpolarization recorded.

Lamellar inclusions and trilaminar substance in the parabronchial epithelium of the quail (Coturnix coturnix).

The fine structure of the epithelial cells of the parabronchus and their secretory products have been the subject of many studies and have given rise to considerable controversy about their configuration and ultrastructure. The aim of the present study was to investigate the mode of formation and discharge of lamellar bodies of granular cells and the trilaminar substance produced and discharged by the embryologically related squamous atrial and respiratory epithelial cells. The material for light and transmission electron microscopic analysis was collected from 10 mature quail and 3 individuals aged 2 days.

High resolution imaging of the mouse inner ear by microtomography: a new tool in inner ear research.

A newly developed desktop microtomograph was used to evaluate whether it is suitable for visualizing the three-dimensional (3D) morphology of the mouse inner ear (at a micrometer level) and whether it is applicable as a fast screening tool to detect hereditary abnormalities in this organ. To this end, the epistatic circler, a mutant mouse showing abnormal circling behaviour, was used as a model. The inner ears were dissected out, formaldehyde-fixed, and scanned at maximal resolution along the longitudinal axis.

Mucosal projections of enteric neurons in the porcine small intestine.

In the present study, a combination of immunohistochemistry and retrograde 1,1;-didodecyl-3,3,3;,3;-tetramethylindocarbocyanine perchlorate (DiI) tracing was used to unravel the morphology, distribution, and neurochemical coding of submucous and myenteric neurons with axonal projections to the mucosa of the porcine small intestine. The majority of traced neurons was located in the inner submucous plexus (ISP; 78%), whereas the remaining part was distributed between the outer submucous plexus (OSP; 10%) and myenteric plexus (MP; 12%). Among these traced neurons, some distinct neuronal populations could be distinguished according to their morphologic and neurochemical properties.