Investigating DNA barcodes of plants growing in some areas of Iran with high crime rate: Quercus brantii, Curpressus arizonica, Crataegus pentagyna, Ziziphus Spina-chtista, and Buxus hyrcana.

According to criminal botany, the offender unknowingly carries plant samples from the crime scene. Therefore, studying the genetic data of plants native to the crime scene can solve many ambiguities in the criminal files. In this regard, the aim of this study was to investigate the genome of 5 endemic plants in some areas of Iran with high crime rate.

Metallic Nanoparticles: Their Potential Role in Breast Cancer Immunotherapy via Trained Immunity Provocation.

Owing to drawbacks in the current common cancer therapies including surgery, chemotherapy and radiotherapy, the development of more reliable, low toxic, cost-effective and specific approaches such as immunotherapy is crucial. Breast cancer is among the leading causes of morbidity and mortality with a developed anticancer resistance. Accordingly, we attempted to uncover the efficacy of metallic nanoparticles (MNPs)-based breast cancer immunotherapy emphasizing trained immunity provocation or innate immunity adaptation.

A SMAD ubiquitin ligase targets the BMP pathway and affects embryonic pattern formation.

The TGF-beta superfamily of proteins regulates many different biological processes, including cell growth, differentiation and embryonic pattern formation. TGF-beta-like factors signal across cell membranes through complexes of transmembrane receptors known as type I and type II serine/threonine-kinase receptors, which in turn activate the SMAD signalling pathway. On the inside of the cell membrane, a receptor-regulated class of SMADs are phosphorylated by the type-I-receptor kinase.

The Drosophila activin receptor baboon signals through dSmad2 and controls cell proliferation but not patterning during larval development.

The TGF-beta superfamily of growth and differentiation factors, including TGF-beta, Activins and bone morphogenetic proteins (BMPs) play critical roles in regulating the development of many organisms. These factors signal through a heteromeric complex of type I and II serine/threonine kinase receptors that phosphorylate members of the Smad family of transcription factors, thereby promoting their nuclear localization. Although components of TGF-beta/Activin signaling pathways are well defined in vertebrates, no such pathway has been clearly defined in invertebrates.

TbetaRI phosphorylation of Smad2 on Ser465 and Ser467 is required for Smad2-Smad4 complex formation and signaling.

Mothers against Dpp-related or Smad proteins are essential components of serine/threonine kinase receptor signaling pathways that are regulated by phosphorylation. Recently, it was demonstrated that Smad2 interacts transiently with and is a direct substrate of the transforming growth factor-beta (TGF-beta) type I receptor, TbetaRI. Phosphorylation sites on Smad2 were localized to a carboxyl-terminal fragment containing three serine residues at positions 464, 465, and 467.

The MAD-related protein Smad7 associates with the TGFbeta receptor and functions as an antagonist of TGFbeta signaling.

TGFbeta signaling is initiated when the type I receptor phosphorylates the MAD-related protein, Smad2, on C-terminal serine residues. This leads to Smad2 association with Smad4, translocation to the nucleus, and regulation of transcriptional responses. Here we demonstrate that Smad7 is an inhibitor of TGFbeta signaling.

MADR2 is a substrate of the TGFbeta receptor and its phosphorylation is required for nuclear accumulation and signaling.

MAD-related (MADR) proteins are essential intracellular components of TGFbeta signaling pathways and are regulated by phosphorylation. Here, we demonstrate that MADR2 and not the related protein DPC4 transiently interacts with the TGFbeta receptor and is directly phosphorylated by the complex on C-terminal serines. Interaction of MADR2 with receptors and phosphorylation requires activation of receptor I by receptor II and is mediated by the receptor I kinase.

Fetal breathing is not inhibited by ethanol exposure during prolonged reduced uterine blood flow.

When prolonged hypoxemia is induced in fetal sheep by reducing uterine blood flow, fetal breathing movements (FBM) return to normal incidence after their initial decrease. Ethanol also inhibits FBM. These experiments were designed to determine the role of fetal oxygenation status in affecting ethanol-induced inhibition of FBM.

MADR1, a MAD-related protein that functions in BMP2 signaling pathways.

Components of the signaling pathways that lie downstream of Ser/Thr kinase receptors and are required for signaling by the TGF beta superfamily have been poorly defined. The Drosophila gene Mothers against dpp (MAD) and the C. elegans sma genes are implicated in these signaling pathways.

Effect of chronic maternal ethanol administration on glutamate and N-methyl-D-aspartate binding sites in the hippocampus of the near-term fetal guinea pig.

The objective of this study was to determine the effect of chronic maternal administration of ethanol on hippocampal L-glutamate (glutamate) and N-methyl-D-aspartate (NMDA) binding sites in the near-term fetal guinea pig. Starting on gestational day (GD) 2, pregnant guinea pigs received one of the following oral treatments up to and including GD 62 (term, about GD 68): 4 g ethanol.kg maternal body weight-1.

Glutamate and N-methyl-D-aspartate binding sites in the guinea pig hippocampus: ontogeny and effect of acute in vitro ethanol exposure.

The objectives of this study were to characterize the ontogeny of the L-glutamate (glutamate) and N-methyl-D-aspartate (NMDA) binding sites in the developing guinea pig hippocampus, and to determine the effect of acute in vitro ethanol exposure on these binding sites. Specific [3H]glutamate binding and NMDA-sensitive [3H]glutamate binding were determined using a guinea pig hippocampal synaptic membrane preparation (HSMP). To characterize the ontogeny of the density (Bmax) and affinity (Kd) of the glutamate and NMDA binding sites, saturation analysis was conducted on HSMP of guinea pigs at gestational day (GD) 50 (immature fetus; term, GD 68), GD 62 (mature, near-term fetus), postnatal day (PD) 13 (neonate), and PD > 60 (adult).

Effect of ethanol on immature ovine fetal breathing movements, fetal prostaglandin E2, and myometrial activity.

In the mature ovine fetus, ethanol decreases fetal breathing movements (FBM), which is temporally related to increased prostaglandin E2 (PGE2) concentration, decreases blood glucose concentration, increases blood lactate concentration, and decreases uterine electromyographic (EMG) activity. The objective of this study was to determine the effects of ethanol on these variables in the immature fetal sheep. Experiments were conducted in pregnant ewes at 85-94 days of gestation (full term 147 days) that received a 1-h maternal infusion of 1 g ethanol/kg maternal body wt (n = 9) or an equivalent volume of saline (n = 5).

Ethanol neuro-behavioural teratogenesis in the guinea pig: behavioural dysfunction and hippocampal morphologic change.

Ethanol neuro-behavioural teratogenesis was studied in the guinea pig because of its extensive prenatal brain development. Our objective was to study, in the offspring of the guinea pig, behavioural and hippocampal morphologic effects produced by chronic maternal administration of 3 and 4 g ethanol.kg body weight-1 x day-1.

Dose-dependent effects of prenatal ethanol exposure in the guinea pig.

The guinea pig is an appropriate animal for studying ethanol central nervous system (CNS) teratogenesis due to its extensive prenatal CNS development. In order to establish an ethanol dosage regimen that produces CNS teratogenesis, the objective of this study was to characterize the dose-dependent effects of chronic ethanol administration on pregnancy outcome and locomotor activity of the offspring. Pregnant guinea pigs received one of the following oral treatments, via intubation into the oral cavity, throughout gestation: 3, 4, 5 or 6 g ethanol/kg maternal body weight/day; isocaloric sucrose and pair feeding; or water.