ABSTRACT
The thyroidea ima artery (TIA), also known as the Neubauer artery, is a variable artery that takes part in the blood supply of the thyroid gland. The overall prevalence rate of the thyroidea ima artery is 3.3%. Though it most commonly branches off the brachiocephalic trunk or the arch of the aorta, the artery has a highly variable origin point. Herein, we present a rare case of a thyroidea ima originating from the left internal thoracic artery, found during routine dissection of a Caucasian, 76-year-old, male, formalin-fixed cadaver. The artery is a normal finding during embryological development as a part of a more extensive network of vessels supplying the thyroid gland. The latter undergoes significant remodeling, and only four superior and inferior thyroid arteries remain. Thus, the presence of the thyroidea ima is considered to be due to changes in the said remodeling process. Due to its course, anteriorly to the trachea, the thyroidea ima artery might pose problems during different surgical procedures regarding the inner anterior region of the neck, such as tracheotomy, thyroidectomy, laryngeal transplantation, and selective embolization of the thyroid arteries (SETA). Furthermore, complications during the operative treatment of parathyroid conditions and mediastinal bleeding are to be expected. The variable presence and origin of the thyroidea ima have clear and significant clinical and surgical implications. They must be considered when procedures in the neck's anterior region occur.
ABSTRACT
Cucurbit aphid-borne yellows virus (CABYV) was first reported in France in 1992 but has since been observed worldwide (Lecoq et al. 1992; Choi and Choi 2016; Buzkan et al. 2017; Zindovic et al. 2017; Vidal et al. 2018; Khanal and Ali, 2018). This virus has caused severe losses to different crops especially to the members of Cucurbitaceae and yield losses can reach up to 40-50% if infection occurs at early stages (Lecoq et al. 1992). In July 2017, leaf samples showing virus-like symptoms were collected from five pumpkin (Cucurbita pepo L. var. Clypeata Alefield) and two cucumber (Cucumis sativus L. cv. Azuma matsunari) plants, growing in а field near Sadovo, Bulgaria. Nearly all plants in the field were affected and displayed green or yellow mosaic, interveinal yellowing, blisters, and leaf deformation (Fig. 1). The collected samples were all symptomatic and were subjected to double antibody sandwich (DAS) or triple antibody sandwich (TAS) enzyme-linked immunosorbent assay (ELISA) to determine the viral agent(s). Specific monoclonal antibodies (Leibniz institute DSMZ, Germany) raised against Cucumber leaf spot virus, Cucurbit chlorotic yellows virus, Cucurbit yellow stunting disorder virus, Cucumber mosaic virus (CMV), Melon necrotic spot virus, Beet western yellows virus (BWYV), CABYV, Watermelon mosaic virus (WMV), Zucchini yellow mosaic virus (ZYMV), and Cucumber green mottle mosaic virus, were used. The total number of tested samples was seven (n=5 from pumpkin and n=2 from cucumber). All of them displayed positive signals for CABYV and BWYV, both belonging to genus Polerovirus, family Luteoviridae. In addition, ZYMV and/or WMV were detected in pumpkins while CMV and/or WMV were detected in cucumber samples, respectively. To confirm the presence of CABYV and/or BWYV, total RNA was isolated from all seven samples by TRI Reagent® (Sigma, St. Louis, USA) and converted to cDNA with First Strand cDNA Synthesis Kit, Thermo Scientific™. Reverse transcription (RT)-polyemerase chain reaction (PCR) was performed using two pairs of primers (CABYV1FW: 5'-TTATCAGGGGACTATGTTTA-3' and CABYV14REV: 5'-GAGGGGATTTTAACTGACTG-3', and BWYV1FW: 5'-AGTAAGTCCTCCCCAACTGA-3' and BWYV2REV: 5'-CTACCCACGACCGTATTCAT-3'), specifically designed to detect CABYV and BWYV, respectively. Amplicons with expected sizes of 1,930 bp were obtained only with CABYV primers for all samples while no fragments were amplified with BWYV primers. The obtained products from two samples (pumpkin and cucumber) were purified and sent to Macrogen Inc., South Korea, for direct sequencing in both directions. High quality nucleotide sequences were submitted to GenBank We have evaluated the quality of the sequencing and trimmed those parts that did not comply the needed quality. The obtained smaller fragments Nucleotide sequences were submitted to GenBank with accession numbers MK671010 (656 bp) and MK671014 (712bp). These sequences contained ORFs encoding CABYV P1-P2 fusion proteins as determined by Blastp analysis (https://blast.ncbi.nlm.nih.gov/Blast.cgi?PAGE=Proteins). A phylogenetic tree constructed by the Neighbor-joining method using 18 CABYV accessions and Potato leafroll virus as an outlier (Fig. 2) showed that the closest accessions to MK671010 and MK671014 were NC003688 (France) and EU636992 (China) with respective nucleotide identity of 98% and 99%. In 2019, another outbreak was observed in the same field near Sadovo and in a field near Plovdiv planted with pumpkins. Nearly 30% of the plants showed leaf yellowing typical for Polerovirus infection. Screening of collected samples (n=17) by RT-PCR confirmed CABYV presence in 15 samples. Based on available reports and according to our knowledge this is the first report of CABYV in Bulgaria.
ABSTRACT
Abiotic stresses, which at the molecular level leads to oxidative damage, are major determinants of crop yield loss worldwide. Therefore, considerable efforts are directed towards developing strategies for their limitation and mitigation. Here the superoxide-inducing agent paraquat (PQ) was used to induce oxidative stress in the model species Arabidopsis thaliana and the crops tomato and pepper. Pre-treatment with the biostimulant SuperFifty (SF) effectively and universally suppressed PQ-induced leaf lesions, H2O2 build up, cell destruction and photosynthesis inhibition. To further investigate the stress responses and SF-induced protection at the molecular level, we investigated the metabolites by GC-MS metabolomics. PQ induced specific metabolic changes such as accumulation of free amino acids (AA) and stress metabolites. These changes were fully prevented by the SF pre-treatment. Moreover, the metabolic changes of the specific groups were tightly correlating with their phenotypic characteristics. Overall, this study presents physiological and metabolomics data which shows that SF protects against oxidative stress in all three plant species.
ABSTRACT
Mapping population of recombinant inbred lines (RILs) representing 541 × Ot1-3 cross exhibited wide variations of benzoxazinoid (BX) content in leaves and roots, brown rust resistance, α-amylase activity in the grain, and resistance to preharvest sprouting. QTL mapping of major BX species using a DArT-based map revealed a complex genetic architecture underlying the production of these main secondary metabolites engaged in stress and allelopathy responses. The synthesis of BX in leaves and roots was found to be regulated by different QTL. The QTL for the BX content, rust resistance, α-amylase activity, and preharvest sprouting partially overlapped; this points to their common genetic regulation by a definite subset of genes. Only one QTL for BX located on chromosome 7R coincided with the loci of the ScBx genes, which were mapped as two clusters on chromosomes 5RS (Bx3-Bx5) and 7R (Bx1-Bx2). The QTL common for several BX species, rust resistance, preharvest sprouting, and α-amylase activity are interesting objects for further exploration aimed at developing common markers for these important agronomic traits.
