Design and implementation of a smart dual axis sun tracker based on astronomical equations

This paper presents a new design algorithm for stand-alone solar tracking system based on ATMEL Microcontroller. The proposed idea of the design is based on astronomical equations to determine the position of the sun in the sky at any time of the day to calculate the tilt angle and polar angle for the two axis tracking purposes. The system is capable of tracking the sun properly at any position on the earth because of the general nature of the algorithm used in the design. At the same time the system reliability, cost effectiveness, precision and flexibility are taken into consideration

Desıgn of a control and data acquısıtıon system for a multı-mode solar trackıng farm

This paper presents a combination network design for a solar tracking farm consisting of n-solar tracking systems. Serial communication protocol has been adopted for this network with developed strategy to make the farm expandable for possible future extension. The master control unit is responsible for managing all the trackers of the sun location in multi-tracking mode, diagnosis all the trackers for any faults and give complete information about the produced power by each of the solar tracking system. This network protocols is designed to deal with the error control, congestion control and flow control for data transmission in the network

Protein–Protein Interactions and Quantitative Phosphoproteomic Analysis Reveal Potential Mitochondrial Substrates of Protein Phosphatase 2A-B’ζ Holoenzyme

Protein phosphatase 2A (PP2A) is a heterotrimeric conserved serine/threonine phosphatase complex that includes catalytic, scaffolding, and regulatory subunits. The 3 A subunits, 17 B subunits, and 5 C subunits that are encoded by the Arabidopsis genome allow 255 possible PP2A holoenzyme combinations. The regulatory subunits are crucial for substrate specificity and PP2A complex localization and are classified into the B, B’, and B” non-related families in land plants. In Arabidopsis, the close homologs B’η, B’θ, B’γ, and B’ζ are further classified into a subfamily of B’ called B’η. Previous studies have suggested that mitochondrial targeted PP2A subunits (B’ζ) play a role in energy metabolism and plant innate immunity. Potentially, the PP2A-B’ζ holoenzyme is involved in the regulation of the mitochondrial succinate/fumarate translocator, and it may affect the enzymes involved in energy metabolism. To investigate this hypothesis, the interactions between PP2A-B’ζ and the enzymes involved in the mitochondrial energy flow were investigated using bimolecular fluorescence complementation in tobacco and onion cells. Interactions were confirmed between the B’ζ subunit and the Krebs cycle proteins succinate/fumarate translocator (mSFC1), malate dehydrogenase (mMDH2), and aconitase (ACO3). Additional putative interacting candidates were deduced by comparing the enriched phosphoproteomes of wild type and B’ζ mutants: the mitochondrial regulator Arabidopsis pentatricopeptide repeat 6 (PPR6) and the two metabolic enzymes phosphoenolpyruvate carboxylase (PPC3) and phosphoenolpyruvate carboxykinase (PCK1). Overall, this study identifies potential PP2A substrates and highlights the role of PP2A in regulating energy metabolism in mitochondria.publishedVersio

Evaluation of the Effect of Platelet Rich Plasma on Wound Healing in the Tongue of Normal and Streptozotocin-induced Diabetic Albino Rats: Histological, Immunohistochemical, and Ultrastructural Study

Background: Delayed healing of diabetic wounds has been well-documented. Currently, the use of platelet-rich plasma (PRP) has attracted great attention in many medical fields including wound healing. Aim: Histological, immunohistochemical and ultrastructural evaluation of the effect of PRP on wound healing in the tongue of normal and Streptozotocin-induced diabetic albino rats. Methodology: A total number of 108 adult male albino rats with average weight 200gm, were used in the study. The animals were classified into two main groups: non-diabetic and diabetic groups. Each group was further divided into three subgroups: non- treated wound, PRP-treatment before wound, and PRP-treatment after wound. Tongue specimens were dissected on postoperative days 1, 3, and 7. The specimens were examined histologically by H&E, immunohistochemically by p63 and vimentin, and ultra-structurally by TEM. Results:  The most accelerated wound healing was revealed in the subgroups treated with PRP before the wound, whether non-diabetic or diabetic, which occurred very early at the 3rd day postoperative in both cases. While complete wound healing was revealed at the 7th day postoperative in both the non-diabetic and diabetic subgroups treated with PRP after the wound, which was like the non-diabetic control subgroup. Whilst, the diabetic non-treated subgroup only showed partial wound healing at the 7th day postoperative. Conclusion: A single injection of PRP could be used as a prophylactic to prevent expected impaired wound healing in diabetic oral mucosal wounds and to enhance wound healing in non-diabetic wounds. PRP could be used as a therapeutic to enhance wound healing in diabetic and non-diabetic oral mucosal wounds. Key Words: platelet rich plasma, wound healing, diabetes, rat, tongue, p63, vimentin, TEM BACKGROUND: Delayed healing of diabetic wounds has been well-documented. At present, the use of platelet-rich plasma (PRP) has attracted great attention in many medical fields including wound healing. AIM: Histological, immunohistochemical, and ultrastructural evaluation of the effect of PRP on wound healing in the tongue of normal and streptozotocin-induced diabetic albino rats. METHODOLOGY: A total number of 108 adult male albino rats with average weight 200 g were used in the study. The animals were classified into two main groups: Non-diabetic and diabetic groups. Each group was further divided into three subgroups: Non-treated wound, PRP-treatment before wound, and PRP-treatment after wound. Tongue specimens were dissected on post-operative days 1, 3, and 7. The specimens were examined histologically by H&E, immunohistochemically by p63 and vimentin, and ultrastructurally by TEM. RESULTS: The most accelerated wound healing was revealed in the subgroups treated with PRP before the wound, whether non-diabetic or diabetic, which occurred very early at the 3rd day post-operative in both cases. While complete wound healing was revealed at the 7th day post-operative in both the non-diabetic and diabetic subgroups treated with PRP after the wound, which was like the non-diabetic control subgroup. While, the diabetic non-treated subgroup only showed partial wound healing at the 7th day post-operative. CONCLUSION: A single injection of PRP could be used as a prophylactic to prevent expected impaired wound healing in diabetic oral mucosal wounds and to enhance wound healing in non-diabetic wounds. PRP could be used as a therapeutic to enhance wound healing in diabetic and non-diabetic oral mucosal wounds

Multi-targeted trehalose-6-phosphate phosphatase I harbors a novel peroxisomal targeting signal 1 and is essential for flowering and development

A putative, non-canonical peroxisomal targeting signal type 1 (PTS1) Pro-Arg-Met > was identified in the extreme C-terminus of trehalose-6-phosphate phosphatase (TPP)I. TPP catalyzes the final step of trehalose synthesis, and the enzyme was previously characterized to be nuclear only (Krasensky et al. in Antioxid Redox Signal 21(9):1289–1304, 2014). Here we show that the TPPI C-terminal decapeptide ending with Pro-Arg-Met > or Pro-Lys-Met > can indeed function as a PTS1. Upon transient expression in two plant expression systems, the free C- or N-terminal end led to the full-length TPPI targeting to peroxisomes and plastids, respectively. The nucleus and nucleolus targeting of the full-length TPPI was observed in both cases. The homozygous T-DNA insertion line of TPPI showed a pleiotropic phenotype including smaller leaves, shorter roots, delayed flowering, hypersensitivity to salt, and a sucrose dependent seedling development. Our results identify novel PTS1s, and TPPI as a protein multi-targeted to peroxisomes, plastids, nucleus, and nucleolus. Altogether our findings implicate an essential role for TPPI in development, reproduction, and cell signaling.publishedVersio