Can Lionel Messi’s brain slow down time passing?

It seems that seeing others in slow-motion by heroes does not belong only to movies. When Lionel Messi plays football, you can hardly see anything from him that other players cannot do. Then why he is not stoppable really? It seems the answer may be that opponents do not have enough time to do what they want; because in Messi’s neural system, time passes slower. In differential equations that model a single neuron, this speed can be generated by multiplying an equal term in all equations. Or maybe interactions between neurons and the structure of neural networks play this role.     

Efficient recovery of recombinant proteins using membrane-based immunoaffinity chromatography (MIC)

A systematic approach to the design and development of membrane-based immunoaffinity systems for the purification of recombinant proteins is presented. The preparation and characterization of immunoaffinity membranes are described. The immunoaffinity purification process for recombinant interferon-alpha2a is used as a model system to determine the operational parameters in membrane-based immunoaffinity chromatography. The high volumetric throughput of membranes, combined with the typically fastbinding kinetics of antigen-antibody interactions, enable the purification of recombinant proteins from dilute feed stream in less time, using less antibody than conventional systems. Three recombinant proteins, human interferon-alpha2a, interleukin-2, and interleukin-2 receptor, have been purified efficiently employing membrane-based immunoaffinity chromatography. Overall, membrane-based immunoaffinity chromatography is shown to be a viable and scalable method, ideal for the industrial-scale production of recombinant proteins. (c) 1992 John Wiley & Sons, Inc.     

Influence of verticillium wilt resistant and susceptible potato genotypes on populations of antagonistic rhizosphere and rhizoplane bacteria and free nitrogen fixers

Summary Verticillium wilt resistant A 66 107-51 and susceptible Russet Burbank potatoes differentially influenced populations of rhizosphere and rhizoplane bacteria. Although differences in total bacteria between the two genotypes were not significantly different, selective differences were evident. These included increases in bacteria antagonistic in vitro toward Verticillium dahliae strain RB 5, and bacteria capable of fixing nitrogen that were more commonly associated with the wilt-resistant potato. Bacteria that were antagonistic to V. dahliae were predominantly Bacillus spp. Other antagonists were species of Pseudomonas, Gluconobacter, Flavobacterium, and Streptomyces. Nitrogen-fixing bacteria were Azotobacter and Azomonas spp. The suppression of Verticillium wilt in Russet Burbank during the growing season following the planting of A 66 107-51 may, in part, be explained by the above findings.     

Interplay between SARS-CoV-2-derived miRNAs,immune system,vitamin D pathway and respiratory system

The new coronavirus pandemic started in China in 2019. The intensity of the disease can range from mild to severe, leading to death in many cases. Despite extensive research in this area, the exact molecular nature of virus is not fully recognized; however, according to pieces of evidence, one of the mechanisms of virus pathogenesis is through the function of viral miRNAs. So, we hypothesized that SARS-CoV-2 pathogenesis may be due to targeting important genes in the host with its miRNAs, which involved in the respiratory system, immune pathways and vitamin D pathways, thus possibly contributing to disease progression and virus survival. Potential miRNA precursors and mature miRNA were predicted and confirmed based on the virus genome. The next step was to predict and identify their target genes and perform functional enrichment analysis to recognize the biological processes connected with these genes in the three pathways mentioned above through several comprehensive databases. Finally, cis-acting regulatory elements in 5′ regulatory regions were analysed, and the analysis of available RNAseq data determined the expression level of genes. We revealed that thirty-nine mature miRNAs could theoretically derive from the SARS-CoV-2 genome. Functional enrichment analysis elucidated three highlighted pathways involved in SARS-CoV-2 pathogenesis: vitamin D, immune system and respiratory system. Our finding highlighted genes' involvement in three crucial molecular pathways and may help develop new therapeutic targets related to SARS-CoV-2.     

The Major Brain Endocannabinoid 2-AG Controls Neuropathic Pain and Mechanical Hyperalgesia in Patients with Neuromyelitis Optica

Recurrent myelitis is one of the predominant characteristics in patients with neuromyelitis optica (NMO). While paresis, visual loss, sensory deficits, and bladder dysfunction are well known symptoms in NMO patients, pain has been recognized only recently as another key symptom of the disease. Although spinal cord inflammation is a defining aspect of neuromyelitis, there is an almost complete lack of data on altered somatosensory function, including pain. Therefore, eleven consecutive patients with NMO were investigated regarding the presence and clinical characteristics of pain. All patients were examined clinically as well as by Quantitative Sensory Testing (QST) following the protocol of the German Research Network on Neuropathic Pain (DFNS). Additionally, plasma endocannabinoid levels and signs of chronic stress and depression were determined. Almost all patients (10/11) suffered from NMO-associated neuropathic pain for the last three months, and 8 out of 11 patients indicated relevant pain at the time of examination. Symptoms of neuropathic pain were reported in the vast majority of patients with NMO. Psychological testing revealed signs of marked depression. Compared to age and gender-matched healthy controls, QST revealed pronounced mechanical and thermal sensory loss, strongly correlated to ongoing pain suggesting the presence of deafferentation-induced neuropathic pain. Thermal hyperalgesia correlated to MRI-verified signs of spinal cord lesion. Heat hyperalgesia was highly correlated to the time since last relapse of NMO. Patients with NMO exhibited significant mechanical and thermal dysesthesia, namely dynamic mechanical allodynia and paradoxical heat sensation. Moreover, they presented frequently with either abnormal mechanical hypoalgesia or hyperalgesia, which depended significantly on plasma levels of the endogenous cannabinoid 2-arachidonoylglycerole (2-AG). These data emphasize the high prevalence of neuropathic pain and hyperalgesia in patients with NMO. The degree of mechanical hyperalgesia reflecting central sensitization of nociceptive pathways seems to be controlled by the major brain endocannabinoid 2-AG.     

Tyrosyl-DNA Phosphodiesterase I Catalytic Mutants Reveal an Alternative Nucleophile That Can Catalyze Substrate Cleavage

Tyrosyl-DNA phosphodiesterase I (Tdp1) catalyzes the repair of 3′-DNA adducts, such as the 3′-phosphotyrosyl linkage of DNA topoisomerase I to DNA. Tdp1 contains two conserved catalytic histidines: a nucleophilic His (His^nuc) that attacks DNA adducts to form a covalent 3′-phosphohistidyl intermediate and a general acid/base His (His^gab), which resolves the Tdp1-DNA linkage. A His^nuc to Ala mutant protein is reportedly inactive, whereas the autosomal recessive neurodegenerative disease SCAN1 has been attributed to the enhanced stability of the Tdp1-DNA intermediate induced by mutation of His^gab to Arg. However, here we report that expression of the yeast His^nucAla (H182A) mutant actually induced topoisomerase I-dependent cytotoxicity and further enhanced the cytotoxicity of Tdp1 His^gab mutants, including H432N and the SCAN1-related H432R. Moreover, the His^nucAla mutant was catalytically active in vitro, albeit at levels 85-fold less than that observed with wild type Tdp1. In contrast, the His^nucPhe mutant was catalytically inactive and suppressed His^gab mutant-induced toxicity. These data suggest that the activity of another nucleophile when His^nuc is replaced with residues containing a small side chain (Ala, Asn, and Gln), but not with a bulky side chain. Indeed, genetic, biochemical, and mass spectrometry analyses show that a highly conserved His, immediately N-terminal to His^nuc, can act as a nucleophile to catalyze the formation of a covalent Tdp1-DNA intermediate. These findings suggest that the flexibility of Tdp1 active site residues may impair the resolution of mutant Tdp1 covalent phosphohistidyl intermediates and provide the rationale for developing chemotherapeutics that stabilize the covalent Tdp1-DNA intermediate.