Interaction of unphosphorylated PtsN with the K/H antiporter YcgO inhibits its activity in Escherichia coli.

Genetic studies in Escherichia coli have implicated the unphosphorylated version of PtsN (unphospho-PtsN), the terminal phospho-acceptor of the PtsP-PtsO-PtsN phosphorelay, as a negative regulator of potassium (K) efflux mediated by YcgO. YcgO is a protein belonging to the CPA1 family of monovalent cation/proton antiporters. Here we show that in vivo, YcgO comprises an approximately 383 amino acid N-terminal transmembrane domain (TMD) and a 195 amino acid C-terminal cytoplasmic region (CTR).

: A Tale of Stealth and Endurance.

() , an opportunistic human fungal pathogen, causes mucosal and deep-seated infections in immunocompromised individuals. Recently designated as a high-priority fungal pathogen by the World Health Organization (WHO), exhibits low inherent susceptibility to azole antifungals. In addition, about 10% clinical isolates of display co-resistance to both azole and echinocandin drugs.

MLL/WDR5 complex recruits centriolar satellite protein Cep72 to regulate microtubule nucleation and spindle formation.

Dysfunction of the centrosome, the major microtubule-organizing center of the cell, is implicated in microcephaly. Haploinsufficiency of mixed-lineage leukemia (MLL/KMT2A) protein causes Wiedemann-Steiner syndrome (WSS), a neurodevelopmental disorder associated with microcephaly. However, whether MLL has a function at the centrosome is not clear.

Conformational plasticity links structural instability of NAA10 and NAA10 mutants to their catalytic deregulation.

The acetylation of proteins' N-terminal amino groups by the N-acetyltransferase complexes plays a crucial role in modulating the spatial stability and functional activities of diverse human proteins. Mutations disrupting the stability and function of NAA10 result in X-linked rare genetic disorders. In this study, we conducted a global analysis of the impact of fifteen disease-associated missense mutations in .

The SH3-binding domain of chorismate mutase protein of contributes to mycobacterial virulence.

Crystal structure of the secretory chorismate mutase protein of (MtbCM) reveals presence of a proline rich region on its surface that serve as a recognition site for protein-protein interaction. This study shows that MtbCM upregulates IL-10 which favors by affecting PKCε-MKP-1-p38 MAPK signaling. MtbCM translocates to the Golgi-network where it interacts with AKAP9 via its SH3-binding domain to inhibit AKAP9-PKCε interaction and reducing PKCε phosphorylation.

Pathological R-loops in bacteria from engineered expression of endogenous antisense RNAs whose synthesis is ordinarily terminated by Rho.

In many bacteria, the essential factors Rho and NusG mediate termination of synthesis of nascent transcripts (including antisense RNAs) that are not being simultaneously translated. It has been proposed that in Rho's absence toxic RNA-DNA hybrids (R-loops) may be generated from nascent untranslated transcripts, and genome-wide mapping studies in Escherichia coli have identified putative loci of R-loop formation from more than 100 endogenous antisense transcripts that are synthesized only in a Rho-deficient strain. Here we provide evidence that engineered expression in wild-type E.

Aspartyl proteases target host actin nucleator complex protein to limit epithelial innate immunity.

Epithelial-immune cell communication is pivotal to control microbial infections. We show that glycosylphosphatidylinositol-linked aspartyl proteases (Yapsins) of the human opportunistic pathogenic yeast Candida glabrata (Cg) thwart epithelial cell (EC)-neutrophil signalling by targeting the EC protein, Arpc1B (actin nucleator Arp2/3 complex subunit), which leads to actin disassembly and impeded IL-8 secretion by ECs. Further, the diminished IL-8 secretion inhibits neutrophil migration, and protects Cg from the neutrophil-mediated killing.

The inositol phosphate signalling network in physiology and disease.

Combinatorial substitution of phosphate groups on the inositol ring gives rise to a plethora of inositol phosphates (InsPs) and inositol pyrophosphates (PP-InsPs). These small molecules constitute an elaborate metabolic and signalling network that influences nearly every cellular function. This review delves into the knowledge accumulated over the past decades regarding the biochemical principles and significance of InsP metabolism.

Multiple Effects of L-Leucine in Escherichia coli Lead to L-Leucine-Sensitive Growth in the Absence of Unphosphorylated PtsN.

In E. coli K-12, the absence of unphosphorylated PtsN (unphospho-PtsN) has been proposed to cause an L-leucine-sensitive growth phenotype (Leu) by hyperactivated K uptake mediated impairment of the expression of the ilvBN operon, encoding subunits of the L-valine (Val)-sensitive acetohydroxyacid synthase I (AHAS I) that renders residual AHAS activity susceptible to inhibition by Leu and K. This leads to AHAS insufficiency and a requirement for L-isoleucine (Ile).

Identification and functional characterization of the nuclear and nucleolar localization signals in the intrinsically disordered region of nucleomethylin.

The nucleolar localization of proteins is regulated by specific signals directing their trafficking to nucleus and nucleolus. Here, we elucidate the mechanism underlying the nuclear and nucleolar localization of the nucleomethylin (NML) protein, focusing on its nuclear localization signals (NLSs) and nucleolar localization signal (NoLS). Using a combination of bioinformatic analysis and experimental validation, we identified two monopartite and one bipartite NLS motifs within NML.

Interaction with IP6K1 supports pyrophosphorylation of substrate proteins by the inositol pyrophosphate 5-InsP7.

Inositol pyrophosphates (PP-InsPs) are a sub-family of water soluble inositol phosphates that possess one or more diphosphate groups. PP-InsPs can transfer their β-phosphate group to a phosphorylated Ser residue to generate pyrophosphorylated Ser. This unique post-translational modification occurs on Ser residues that lie in acidic stretches within an intrinsically disordered protein sequence.

Discovery of 8-hydroxy-2-quinoline carbaldehyde derivatives as inhibitors for M1 aminopeptidase of Leishmania donovani.

M1 aminopeptidase is a metallopeptidase that plays a vital role in protein catabolism and has been identified as a validated drug target in various parasites; however, our understanding of this enzyme is restricted for leishmanial parasite. The present investigation involved the purification of Leishmania donovani M1 aminopeptidase (LdM1AP) to homogeneity by affinity chromatography. Purified LdM1AP was observed to be enzymatically active and displayed maximal activity in the presence of cobalt ions, whereas secondary structure analysis confirmed the dominance of α-helices.

Solasodine targets NF-κB signaling to overcome P-glycoprotein mediated multidrug resistance in cancer.

P-glycoprotein (P-gp) mediated multidrug resistance (MDR) is the leading cause of chemotherapy failure since it causes the efflux of chemotherapeutic drugs from the cancer cells. Solasodine, a steroidal alkaloid and oxaspiro compound, present in the Solanaceae family showed significant cytotoxic effects on various cancer cells. However, the effect of solasodine on reversing P-gp mediated drug resistance is still unknown.

Functional Characterization of Thyroid Peroxidase Missense Variants Causing Thyroid Dyshormonogenesis in Asian Indian Population.

Introduction: Thyroid dyshormonogenesis (TDH) is a subgroup of congenital hypothyroidism with recessive inheritance resulting from disease-causing variants in thyroid hormone biosynthesis pathway genes, like DUOX2, TG, TPO, SLC5A5, SLC26A4, IYD, DUOXA2, and SLC26A7. Thyroid peroxidase (TPO) is a crucial enzyme involved in thyroid hormone biosynthesis and is one of the frequently mutated genes in patients with TDH. The purpose of the study was to describe the in silico and functional characterization of novel variants in TPO gene identified in patients with TDH.

Proteome-scale tagging and functional screening in mammalian cells by ORFtag.

The systematic determination of protein function is a key goal of modern biology, but remains challenging with current approaches. Here we present ORFtag, a versatile, cost-effective and highly efficient method for the massively parallel tagging and functional interrogation of proteins at the proteome scale. ORFtag uses retroviral vectors bearing a promoter, peptide tag and splice donor to generate fusions between the tag and endogenous open reading frames (ORFs).

Evaluation of the gene fusion landscape in early onset sporadic rectal cancer reveals association with chromatin architecture and genome stability.

Gene fusions represent a distinct class of structural variants identified frequently in cancer genomes across cancer types. Several gene fusions exhibit gain of oncogenic function and thus have been the focus of development of efficient targeted therapies. However, investigation of fusion landscape in early-onset sporadic rectal cancer, a poorly studied colorectal cancer subtype prevalent in developing countries, has not been performed.

EYA protein complex is required for Wntless retrograde trafficking from endosomes to Golgi.

Retrograde transport of WLS (Wntless) from endosomes to trans-Golgi network (TGN) is required for efficient Wnt secretion during development. However, the molecular players connecting endosomes to TGN during WLS trafficking are limited. Here, we identified a role for Eyes Absent (EYA) proteins during retrograde trafficking of WLS to TGN in human cell lines.

Short stature and dysmorphic features in Asian Indian siblings with DAAM2-associated steroid-resistant nephrotic syndrome: Expansion of the phenotypic spectrum or a blended phenotype?

Variants in more than 60 different genes, most of which code for podocyte-related proteins, have been found to be associated with monogenic forms of nephrotic syndrome (NS). Biallelic variants in DAAM2, a member of the formin family, were recently identified to cause autosomal recessive (AR) NS type 24 in four unrelated families with steroid-resistant nephrotic syndrome (SRNS). This case report represents only the fifth reported family of DAAM2-associated NS and the first from India, with two sibs who presented with a complex phenotype characterized by steroid-resistant nephrotic syndrome, short stature, dysmorphic facial features, deep-set toenails, myopia, increased thickness of the calvarium of the skull, and sloping ribs.

SERPINA11 related novel serpinopathy - A perinatal lethal disorder.

SERPINA11 is a hitherto poorly characterised gene belonging to Clade A of the SERPIN superfamily, with unknown expression pattern and functional significance. We report a perinatal lethal phenotype in two foetuses from the same family associated with a biallelic loss of function variant in SERPINA11, and provide functional evidence to support its candidature as a Mendelian disorder. The SERPINA11 variant-associated foetal phenotype is characterised by gross and histopathological features of extracellular matrix disruption.

The Hog1 MAPK substrate governs Candida glabrata-epithelial cell adhesion via the histone H2A variant.

CgHog1, terminal kinase of the high-osmolarity glycerol signalling pathway, orchestrates cellular response to multiple external stimuli including surplus-environmental iron in the human fungal pathogen Candida glabrata (Cg). However, CgHog1 substrates remain unidentified. Here, we show that CgHog1 adversely affects Cg adherence to host stomach and kidney epithelial cells in vitro, but promotes Cg survival in the iron-rich gastrointestinal tract niche.