Three new species of Byrsopteryx Flint microcaddisflies from Peru (Insecta: Trichoptera) including DNA-based larval associations

In this paper, we have described and illustrated three new species of Byrsopteryx from Peru: Byrsopteryx inti, sp. nov. Byrsopteryx mamaocllo sp. nov., and Byrsopteryx mancocapac sp. nov. Larvae of the latter two were also associated to male specimens based on comparison of a fragment of COI gene and pharate male identification. Byrsopteryx inti sp. nov. and Byrsopteryx mamaocllo sp. nov. share a unique feature: a semi-dome process formed by a thickened area on male forewings. The three species can be easily identified by wing coloration and male genitalia. Furthermore, Byrsopteryx inti sp. nov. can be recognized by its sternum VIII with a median digitate process on posterior margin, slightly capitate; and by long dorsolateral processes from segment VIII, which cross each other apically in dorsal view. Byrsopteryx mamaocllo sp. nov. can be distinguished by sternum VIII bearing a pair of short, posterior, spinelike processes, which are curved inwards and bordered by a rounded, membranous structure, and by a pair of short, heavily sclerotized, dorsolateral processes. Byrsopteryx mancocapac sp. nov. can be distinguished by strong spine-like processes arising dorsally from subgenital plate and by sternum VIII with posterior margin divided into two plate-like lobes. Larvae of B. mamaocllo sp. nov. and B. mancocapac sp. nov. are similar to other Byrsopteryx larvae known. They can be distinguished from each other by the shape of the operculum formed by terga VIII and IX, and number of setae on the second abdominal pleurite. Maximum likelihood analyses of 20 COI sequences, including nine Byrsopteryx species, placed B. inti sp. nov. and B. mamaocllo sp. nov. as sister species and related to a clade including B. gomezi, B. tapanti, and B. esparta, while B. mancocapac sp. nov. was found as sister to B. abrelata. Despite the close phylogenetic relationship found between B. inti sp. nov. and B. mamaocllo sp. nov., they are separated by 14.9% minimum K2P divergence of COI. The highest intraspecific distance observed was 1.4% for B. mancocapac sp. nov. individuals. Although the Peruvian caddisfly fauna has around 320 known species and almost a third of them are microcaddisflies, in this paper we present the first descriptions of Byrsopteryx species for the country.

Histopathological Investigation of Dura-Like Membrane in Vestibular Schwannomas

The dura-like membrane (DLM) is an outermost membranous structure arising from the dura mater adjacent to the internal auditory meatus (IAM) that envelops some vestibular schwannomas (VSs). Its recognition is important for the preservation of the facial and cochlear nerves during tumor resection. This study analyzes the histopathological characteristics of the DLM. The expression of CD34 and αSMA was histopathologically analyzed in tumor and DLM tissue of 10 primary VSs with and without a DLM. Tumor volume, resection volume percentage, microvessel density (MVD), and vessel diameter were analyzed. Volumetric analysis revealed that the presence of a DLM was significantly associated with lower tumor resection volume (p < 0.05). Intratumoral vessel diameter was significantly larger in the DLM group than the non-DLM group (p < 0.01). Larger VSs showed a higher intratumoral MVD in the DLM group (p < 0.05). Multilayered αSMA-positive vessels were identified in the DLM, tumor, and border; there tended to be more of these vessels within the tumor in the DLM group compared to the non-DLM group (p = 0.08). These arteriogenic characteristics suggest that the DLM is formed as the tumor induces feeding vessels from the dura mater around the IAM.

Viral and Bacterial Causes of Labyrinthitis

Labyrinthitis is a known inflammation of the membranous structure of the inner ear. Affected patients usually present with nausea and vomiting, vertigo, hearing loss/impairment, and tinnitus. Many etiologies have been proposed to lead to the development of labyrinthitis, including bacterial, viral, systemic, and iatrogenic causes and the most commonly reported causes include viral and bacterial infections. Not many investigations have elaborated on the viral and bacterial etiologies, and the evidence seems to be scattered across the different studies. In the present study, we have reviewed the literature to discuss the current evidence regarding the viral and bacterial causes of labyrinthitis. Many viruses and bacteria were reported in the literature to cause the condition. However, the most common pathogen includes cytomegalovirus and maternal rubella infections, leading to congenital hearing loss. Other viruses as measles and mumps might also lead to developing post-natal labyrinthitis. Studies also indicates that COVID-19 can be a recent cause of the disease. However, evidence regarding this information, similar to the case with other viral and bacterial etiologies, still needs further validation and reporting before making solid conclusions. Accordingly, we encourage researchers to furtherly report about similar cases and conduct epidemiological investigations to better understand the etiology of the disease.

Fine structure of spermatogenesis in the spider crab Lissa chiragra (Fabricius, 1775) (Eubrachyura, Epialtidae)

This article uses the male spider crab Lissa chiragra, collected from Ras el Tin beach on the Mediterranean Sea at Alexandria, Egypt, between January and December 2017, as a model for a descriptive study of the functional morphology of the different structures of spermatogenesis with the aid of the transmission electron microscope. This study divides the seminiferous tubule into three zones, i.e., the germinal, transformation, and evacuation zone. The transformation or maturation zone occupies the central area. The evacuation zone lies at a pole opposite to the germinal zone. The anterior vas deferens is a tube where the formation of the spermatophore occurs by means of secretions from the epithelium. The ejaculatory duct is located between the muscles of the coxae of the fifth walking legs. This study concluded that the complex acrosome vesicle is formed during spermiogenesis and the cytoplasm includes the membrane system, constituted by the endoplasmic reticulum, Golgi apparatus, and vesicles associated with microtubules, and a few mitochondria. The Golgi apparatus is developed and is organized progressively to produce various vesicles. The cytoplasm forms a ring at the base of the nuclear extensions. The merger of the plasma and nuclear membranes, results in a pentalaminar membranous structure in some regions of the cell surface.

Nucleus

In our application of AuNPs on the leaf surface, we were pushing the Barley Yellow Dwarf Virus (BYDV-PAV) source and Gold nanoparticles (AuNPs) into the plant cell system up on the events of systemic plant defense response. In the infected host cell, the viral coat protein is the first obvious in the cytoplasm. When nanoparticles are applied on leaf surfaces, a large surface area relative to their volume happens. AuNPs solutions are more active and dispersed ooplasm. The correlation between Zeta potential value and Zeta sizer is inverse proportion. Filaments are visible in the nucleopores, the nuclear outline is distorted, and massive clumping of heterochromatin begins as declared. It was mostly found in or around regions of ribosome-associated filaments. Our present study combines TEM and nucleus content in the presence of AuNPS to explore the level of repair mechanism illustrating in TEM micrographs, showing Polyploidy nucleus and segregated chromatin. Multi membranous structure, imaging the AuNPs inside and around the nucleus and Pseudo crystal array is enveloped in an endoplasmic reticulum cisterna (ER).

ATP-Binding Cassette Expression Profilling Revealed its Role in Development and Regulating Stress Response in Potato (Solanum Tuberosum)

The ATP-binding cassette (ABC) transporter gene family play vital role in substance transportation including heavy metals ion, secondary metabolites and phytohormone across membranous structure. Despite its essential role in crops, still uncovered in potato (Solanum tuberosum L), grown world widely as a 3rd important food crop. Current study identified a total of 54 ABC transporter genes (StABC) in potato genome. The accumulative phylogenetic tree of StABC with Arabidopsis, divided into 8 groups (ABCA to ABCH). Among these, ABCG was the largest family covering 90% of StABC genes followed by ABCB group. The number and architecture of exon-intron varied from gene to gene. However, the sequence alignment and motif analysis demonstrated similar functional and structural sites and motif in all StABC. The syntenic blocks presented segmental duplication among intra and inter genomes. In addition, the presence of stress responsive element in the regulatory regions depicted their role in environmental adaptation. Furthermore, the tissues-specific and stress-specific expression profiling of StABC genes and their validation through Real-Time-qPCR (RT-qPCR ) analysis revealed their role in development and stress. The presented results provided useful information for further functional analysis of StABC and can also use as reference study for other important crops.

Amniotic band syndrome in a monochorionic diamniotic twin pregnancy after rupture of the dividing membrane in the early second trimester: A case report

Background Amniotic band syndrome is a rare phenomenon, but it can result in serious complications. We report herein our experience of amniotic band syndrome in a monochorionic diamniotic twin pregnancy where rupture of the dividing membrane occurred early in the second trimester. Case Presentation A 29-year-old nulliparous woman was referred to us for management of her monochorionic diamniotic twin pregnancy at 10 weeks of gestation. When we were unable to identify a dividing membrane at 15 weeks of gestation using two-dimensional ultrasonography, we used three-dimensional ultrasonography to confirm its absence. Both modalities showed that the left arm of baby B was swollen and attached to a membranous structure originating from the placenta at 18 weeks of gestation. Tangled umbilical cords were noted on magnetic resonance imaging at 18 weeks of gestation. Emergency cesarean delivery was performed at 30 weeks of gestation because of the nonreassuring fetal status of baby A. The left arm of baby B had a constrictive ring with a skin defect. Both neonates had an uncomplicated postnatal course and were discharged around 2 months after delivery. Conclusions Attention should be paid to the potential for amniotic band syndrome if rupture of the dividing membrane between twins is noted during early gestation.

Skull and vertebral bone marrow are myeloid cell reservoirs for the meninges and CNS parenchyma

The meninges are a membranous structure enveloping the central nervous system (CNS) that host a rich repertoire of immune cells mediating CNS immune surveillance. Here, we report that the meninges contain a pool of monocytes and neutrophils supplied not from the blood, but by adjacent skull and vertebral bone marrow. Under pathological conditions, including spinal cord injury and neuroinflammation, CNS-infiltrating myeloid cells can originate from brain borders and display transcriptional signatures distinct from their blood-derived counterparts. Thus, CNS borders are populated by myeloid cells from adjacent bone-marrow niches, strategically placed to supply innate immune cells under homeostatic and pathological conditions. These findings call for reinterpretation of immune-cell infiltration into the CNS during injury and autoimmunity and may inform future therapeutic approaches harnessing meningeal immune cells.

Membrane-Associated Flavivirus Replication Complex—Its Organization and Regulation

Flavivirus consists of a large number of arthropod-borne viruses, many of which cause life-threatening diseases in humans. A characteristic feature of flavivirus infection is to induce the rearrangement of intracellular membrane structure in the cytoplasm. This unique membranous structure called replication organelle is considered as a microenvironment that provides factors required for the activity of the flaviviral replication complex. The replication organelle serves as a place to coordinate viral RNA amplification, protein translation, and virion assembly and also to protect the viral replication complex from the cellular immune defense system. In this review, we summarize the current understanding of how the formation and function of membrane-associated flaviviral replication organelle are regulated by cellular factors.

Study on Fluid-Structure Interaction of Flexible Membrane Structures in Wind-Induced Vibration

A strongly coupled monolithic method was previously proposed for the computation of wind-induced fluid-structure interaction of flexible membranous structures by the authors. How to obtain the accurate solution is a key issue for the strongly coupled monolithic method. Projection methods are among the commonly used methods for the coupled solution. In the work here, to impose initial pressure boundary conditions implicitly defined in the original momentum equations in classical projection methods when dealing with large-displacement of membranous structures, a modified factor is introduced in corrector step of classical projection methods and a new modified projection method is obtained. The solution procedures of the modified projection method aimed at strongly coupled monolithic equations are given, and the related equations are derived. The proposed method is applied to the computation of a two-dimensional fluid-structure interaction benchmark case and wind-induced fluid-structure interaction of a three-dimensional flexible membranous structure. The performance and efficiency of the modified projection method are evaluated. The results show that the modified projection methods are valid in the computation of wind-induced fluid-structure interaction of flexible membranous structures, with higher accuracy and efficiency compared with traditional methods. The modified value has little effects on the computation results whereas iteration times has significant effects. Computation accuracy can be improved greatly by increasing iteration times with less increase in computation time and little effects on stability with the modified projection method.