Your search keyword '"Baranov, PV"' showing total 128 results

1. RRNA:mRNA pairing alters the length and the symmetry of mRNA-protected fragments in ribosome profiling experiments

Author

Weissman, Jonathan, O'Connor, PBF, Li, GW, Weissman, JS, Atkins, JF, and Baranov, PV

Abstract

Motivation: Ribosome profiling is a new technique that allows monitoring locations of translating ribosomes on mRNA at a whole transcriptome level. A recent ribosome profiling study demonstrated that internal Shine-Dalgarno (SD) sequences have a major glob

Published

2013

2. OP02. Interrogating and correcting fine‐scale genetic structure in large (>36,000 samples) GWAS datasets using scalable haplotype sharing methods

Author

Gilbert, Edmund, O’Reilly, Seamus, Merrigan, Michael, McGettingan, Darren, Vitart, Veronique, Joshi, Peter K, Clark, David W, Campbell, Harry, Hayward, Caroline, Ring, Susan M, Golding, Jean, Goodfellow, Stephanie, Navarro, Pau, Kerr, Shona M, Amador, Carmen, Campbell, Archie, Haley, Chris S, Porteous, David J, Cavalleri, Gianpiero L, Wilson, James F, Byrne, RP, van Rheenen, W, Veldink, JH, McLaughlin, RL, Fitzgerald, Joan, Fahey, Laura, Whitton, Laura, Donohoe, Gary, Morris, Derek W, Smyth, LJ, Wooster, C, Kilner, J, Kee, F, Young, I, McGuinness, B, Maxwell, AP, McKay, GJ, McKnight, AJ, Maloney, DM, Chadderton, N, Millington-Ward, S, Farrar, GJ, Lambert, DM, Nguengang-Wakap, S, Olry, A, Rath, A, Murphy, D, Lynch, SA, Treacy, EP, Gunne, E, McGarvey, C, Hamilton, K, Savage, S, Rasheed, E, Rashid, A, Keogh, E, MacNamara, B, Collison, C, Brazil, N, Whatley, S, Crowley, VEF, Murphy, DN, Turner, J, Doyle, Samantha, Abidin, Zaza, Senanayake, Suranga, James, Stephanie, Yap, Mei, Hart, Caroline, Crushell, Ellen, Smyth, Shane, Green, Andrew, Treacy, Eileen, Lynch, Tim, Pastores, Gregory, Laffan, Aoife, O’Byrne, James, Palfi, A, Yesmambetov, A, Ormond, CM, Ryan, NM, Heron, EA, Gill, M, Corvin, AP, Kelly, CM, Doherty, MA, Hengeveld, JC, Campbell, C, Leu, C, Delanty, N, Lal, D, Cavalleri, GL, Angel, CZ, McNally, CJ, McKenna, DJ, Breslin, EM, Cassidy, LM, Martiniano, R, Mattiangeli, V, Silva, AM, Bradley, DG, Kearney, H, Balagura, G, Lewis-Smith, D, Ganesan, S, Gan, J, Galer, PD, Wang, Y, Tan, NCK, Lench, NJ, Steward, CA, Krause, R, Robinson, P, Helbig, I, Finnegan, LK, Kenna, P, Carty, M, Bowie, AG, Whelan, L, Dockery, A, Kenna, PF, Keegan, D, Silvestri, G, Khan, M, Cornelis, SS, Dhaenens, CM, Humphries, P, Cremers, FPM, Roosing, S, Broin, Pilib Ó, Morris, Derek, McVeigh, Úna M, McVeigh, Terri P, Miller, Nicola, Kerin, Michael J, Flaus, Andrew, Irwin, RE, Thursby, SJ, Ondičová, M, Pentieva, K, McNulty, H, Richmond, C, Caffrey, A, Lees-Murdock, DJ, McLaughlin, M, Cassidy, T, Suderman, M, Relton, CL, Walsh, CP, Carrigan, M, Maloney, D, Hanlon, K, Bookey, N, Drago, P, Parle-McDermott, A, Flynn, PM, Toulouse, A, Bermingham, N, Jansen, M, Hand, CK, Skelly, RD, Cole, J, Berkeley, M, Dinneen, Thomas, O’Cónail, A, Kirov, George, Lopez, Lorna M, Gallagher, Louise, Ning, Z, Williams, JM, Kumari, R, Baranov, PV, Moore, T, Bhandari, Sushil, Hillman, Sara, Dolma, Padma, Mukerji, Mitali, Prasher, Bhavana, Montgomery, Hugh E., Gunne, EA, Ward, A, Treacy, E, Lambert, D, Benson, KA, Murray, S, Senum, SR, Kennedy, C, Yachnin, K, Gangadharan, N, Harris, PC, Conlon, P, Zhu, J, Wynne, N, McKenna, C, Humphreys, M, McNerlan, S, Dabir, T, Rea, G, Morrison, PJ, Donnelly, DE, Jeffers, L, Sasaki, E, Kelly, H, Hayes, B, Ryan, K, Carolan, E, Betts, D, Green, A, Sheerin, A, Grabowsky, L, James, S, Senanayake, S, Abidin, Z, O’Byrne, J, Pastores, G, McConnell, V, Bradley, L, Reid, J, Fitzsimons, D, Dempster, M, Pentony, Michaela, Bradley, Lisa, Connor, Pamela O’, Kirk, Claire W, Donnelly, Deirdre E, Hardy, Rachel, Shepherd, Charles W, Morrison, Patrick J, Doyle, S, McVeigh, T, O’Byrne, JJ, Senanayake, SL, Sadok, S, Pastores, GM, Forde, R, Rakovac, A, Abdelfadil, S, Mac Namara, B, O’Connor, P, Heggarty, S, Hart, P, Morgan, NE, Dorris, E, Cummins, E, Adeeb, F, Taylor, C, Savic, S, Killeen, O, Fraser, A, Wilson, AG, Murphy, Jane, Kirk, Claire, Prendiville, Terence, Ward, Deirdre, Galvin, Joseph, Lynch, Sally Ann, Carroll, C, Kirk, C, Murphy, J, Duff, M, Mooney, E, Clark, T, King, C, Fallah, L, and Hinde, J

Subjects

Poster Presentations, Abstracts, Oral Presentations

Abstract

Background Age-related cognitive decline results in increased difficulty in performing tasks that require memory or rapid information processing. Cognitive resilience is the ability to withstand the negative effects of stress on cognitive functioning. The polygenetic contribution to cognitive resilience requires large data sets for analysis. In addition, longitudinal data is needed to identify individual differences in cognitive performance over time. The UK Biobank cohort of over 500,000 participants over the age of 40 offers the potential to advance research on the genetics and biology of cognitive resilience. Methods We created a longitudinal cognitive resilience phenotype by combining the phenotypic cognitive parameter of current reaction time with a proxy phenotype of education years (EY). We used this resilience phenotype, in genome-wide association studies (GWAS) to identify genes and gene sets that influence the biological pathways involved in resilience. To remove the influence of the EY on the analysis we compared genetic data on participants that displayed resilience to those that showed expected cognitive decline. Results GWAS outputs analysis showed 273 significantly enriched genes for participants that demonstrated resilience. Genotype–tissue expression was significant in brain tissue, particularly in the anterior cingulate cortex, frontal cortex, and hippocampus. Biological Pathway analysis includes synapse, post synaptic density and neuron guidance. Conclusion This analysis shows an association between cognitive resilience and enrichment of neuronal activity. Confirmatory examination of these findings in datasets with strong longitudinal cognitive data, such and the Health and Retirement Study, is ongoing., Introduction Type 1 diabetes (T1D) is a polygenic disease characterised by autoimmune inflammatory destruction of the pancreas and subsequent hyperglycaemia. Several GWAS have identified loci associated with T1D risk, but recent evidence suggests that epigenetic changes in DNA methylation may have a causal role in T1D. Methods To identify potential methylation-based biomarkers of T1D, blood-derived DNA from 250 individuals with ≥15 years duration of T1D was compared to 391 controls with no evidence of diabetes. All individuals were from the British Isles. DNA was bisulphite treated using the EZ DNA Methylation Kit (Zymo). The Infinium HD Methylation Assay MethylationEPIC BeadChips (Illumina) were used to determine the methylation status of >850,000 CpG sites, gene bodies and promoters. Results MethylationEPIC data was analysed using GenomeStudio v2011 and Partek Genomics Suite v7.0. Comparing T1D with controls identified 1,706 CpG sites with significantly different (p±2 fold change). Genes including HLA‐DRB1, HLA‐DQA1 and PLEKHA1 have been previously linked to T1D and contained >2 differently methylated CpG sites ≥p, Introduction Rare diseases (RDs) are a public health priority but their scarcity and diversity leads to a lack of knowledge and expertise. Accurate epidemiological information about RDs is necessary to inform public policy, but without an Irish rare disease registry, there is a dearth of primary data. Methods Collaborative work with Orphanet Coordination derived a global point prevalence of RDs from the ‘Orphanet Epidemiological File’ (http://www.orphadata.org) by selecting RDs described by ‘point prevalence’ from predefined geographic regions, and summing point prevalences. In the National Rare Disease Office, expert opinion and disease-specific publications were used to adapt a ‘high prevalence’ list for Ireland. Results Globally, ‘point prevalence’ describes 5,304 RDs ≥85.9%). The minimum cumulative point prevalence of RDs is 3.5‐5.9% of the population. While globally 84.5% RDs analysed ≥n=3585) had a point prevalence of 1/100,000. To construct a comparable Irish ‘high‐ prevalence’ list, 191 RDs with known prevalence >1/100,000 across all countries were drawn from the global list. A further 147 diseases with possible prevalence >1/100,000 in Ireland due to ethnic, environmental or founder‐effect are currently under consideration for inclusion. Conclusion 3.5%‐5.9% is the first evidence‐based estimate of the global population prevalence of RDs. Creation of an Irish list of high‐prevalence RDs permits development of care pathways and systems that address the needs of the majority of Irish people with RDs. Implementation of RD codification in eHealth Ireland will provide more accurate data., Introduction The acute hepatic porphyrias, including acute intermittent porphyria (AIP), variegate porphyria (VP) and hereditary coproporphyria (HP) along with familial Porphyria Cutanea Tarda (fPCT) are autosomal dominantly inherited disorders affecting key enzymes in the haem biosynthetic pathway. Clinically these disorders may manifest as photosensitive skin lesions (VP, HP and PCT) and/or acute neuropathic episodes (AIP, VP and HP). All demonstrate variable penetrance and expressivity. Thus, while biochemical investigations, including blood, urine and faecal porphyrin analysis, are critical for the diagnosis of active porphyric disease, these investigations may not be sensitive enough to identify presymptomatic variant carriers. Hence molecular genetic analysis has become an important component in kindred follow-up for identifying porphyria susceptibility. Methods The Biochemistry Department, St James’s Hospital, Dublin, has established a molecular diagnostic service based on direct nucleotide sequencing to facilitate diagnosis of genetic susceptibility to AIP, VP, HCP and PCT respectively. Results To date over 30 different genetic variants linked with a porphyria phenotype have been identified in different kindreds including non‐Irish. The spectrum of variants includes missense, nonsense, splice‐site and small insertions and deletions e.g. HMBS ≥R26C, R26H, IVS4+1G>A), PPOX ≥IVS4‐1G>A, Q435X, W427X, A150D, Q375X) and CPO ≥R332Q, R332W, c.1291‐1292 ins TG). In addition, novel variants have been identified in collaboration with Cardiff Porphyria Centre. Conclusion This unique insight into the molecular basis of porphyrias in the ROI indicates that acute porphyrias and fPCT are genetically heterogeneous. Furthermore, the variant scanning assay in St James’s Hospital has identified pathogenic variants in >93% of confirmed porphyria kindreds, Background The developmental and epileptic encephalopathies (DEEs) are a group of severe epilepsies which co-present with intellectual disability, and occur in cases without a family history of epilepsy. Their severe phenotype means that DEEs are thought to be primarily monogenic, caused by highly damaging rare mutations. Currently, analysis of exome sequence data can identify a causative mutation in around 40% of DEEs. Little is known about the genetic architecture of the remaining DEEs which screen-negative after genomic analysis. Here, we used a method known as polygenic risk scoring (PRS) to test whether the burden of common genetic variation is relevant to the development of the DEEs. Methods Exome and GWAS data on DEE cases (n=745), and population controls (n=75,000) were obtained from the DDD cohort and Ukbiobank, respectively. Damaging mutations in known epilepsy genes were bioinformatically inferred. PRS were calculated using the most recent ILAE GWAS of epilepsy and compared between i) DEE cases and the general population, and ii) DEE cases with and without damaging mutations. Results DEE cases with and without inferred damaging mutations were found to have elevated PRS for epilepsy. We did not detect a significant difference in PRS between DEE cases with and without damaging mutations. Discussion This research provides the first evidence that common genetic variation contributes to the development of the DEEs. Our results suggest common genetic variation contributes to DEE status irrespective of the presence of a highly damaging rare genetic variant. Further work in additional cohorts is required to extend these results., Rationale The phenotypic features in a person with epilepsy are often complex with regards to seizure presentations, which is acknowledged by the most recent revision of the seizure classification by the International League Against Epilepsy (ILAE). We provide updated seizure-related human phenotype ontology (HPO) terms to facilitate a deep phenotypic interpretation of heretofore unexplained genetic epilepsies. Methods The Epilepsiome project is a Task Force of the Genetics Commission of the ILAE and represent the link to the gene curation efforts within the ClinGen Epilepsy Clinical Domain Working Group (CDWG). Within the efforts to align terminology used in the diagnostic space, the Epilepsiome Project revised HPO terms for epileptic seizures. The updated classification was built through an online portal and consensus was achieved through biweekly conference calls. Results Focal, generalised and neonatal HPO seizure terminologies were constructed according to the most recent ILAE classification and aligned with the existing HPO structure. This ontology allows capture of clinical information at various levels of detail and aims to preserve the onset, awareness and motor/non-motor nature of each seizure type, using multiple parentages. We integrated other frequently observed seizures currently not included in the ILAE, which required a separate branch within the ontology due to biological peculiarity of their age of onset, their clinical significance or genetic architecture. Conclusions Improvements in HPO terms for epileptic seizures will enable a more versatile seizure ontology leading to deep phenotyping of people with epilepsy to improve associations with genomic data in both a research and diagnostic setting., Purpose Target5000 aims to genetically characterise approximately 5000 people in Ireland with an inherited retinal degeneration (IRD). Thus far, over 1,000 IRD patients have been sequenced for variants in 260 IRD genes. One arm of the project focuses on improving detection of candidate variants by whole genome sequencing (WGS), by analysing non-coding mutations and performing functional analysis. Approach IRD patients are clinically diagnosed by Target5000 ophthalmologists. When informed consent is given, the Target5000 study employs target capture next generation sequencing (NGS), with a positive candidate detection rate of 68%. To improve detection rates, whole-gene or WGS was employed on a case-dependent basis to identify pathogenic intronic variants not previously captured. Results One common form of IRD is ABCA4-associated Stargardt disease (STGD1), often caused by deep-intronic variants. Thus far, 36 ‘unresolved’ STGD1 and cone-rod dystrophy cases have undergone targeted ABCA4 whole-gene sequencing, positively identifying a candidate in ~50% of cases. A variant in intron 30 resulting in a pseudoexon inclusion was particularly frequent and found in 5/16 (likely) solved cases. Furthermore, 40 patient samples have undergone WGS. Conclusions An objective of Target5000 is to provide actionable outcomes empowering patients with genetic diagnoses and potentially future access to clinical trials or approved treatments, where appropriate. The results presented highlight the significant value of a target capture NGS strategy as a preliminary diagnostic measure, with remaining elusive cases undergoing more extensive genetic analysis. This methodology improves variant detection rates and progresses the goal of fully elucidating the genetic architecture of IRDs in Ireland., Background Copy Number Variants (CNVs) are large genomic deletions/duplications of >1kb, spanning regions that can encompass one or many genes. Though a common form of structural variation, pathogenic CNVs, of population freq., The Ladakhi people dwell in the Jammu and Kashmir regions of India, between the Karakoram and Himalayan mountain ranges, at ≥3400 meters altitude. The Ladakhi share similar linguistic, cultural and religious practices with Tibetans. However, relative to Tibetans, the Ladakhi are very poorly studied at the level of population structure and genetic selection. In this context, we set out to conduct a genomic survey of population structure in representative samples of the Ladakhi people. Methods We genotyped 310 Ladakhi DNA samples using the Illumina Global Screening Array gene chip. We merged the Ladakhi with data from 800 individuals representing different reference language groups including; Sino-Tibetan (Tibetans, Sherpa, Han), Indo-European (Indo-Aryan, Hazara), Austroasiatic (Munda) and Burusho (a linguistic isolate in Jammu-Kashmir). We performed ADMIXTURE, principal component analysis (PCA), fineSTRUCTURE and ChromoPainter analysis on the combined autosomal data. Results In PCA plots, the Ladakhi population cluster together with Sherpa and Tibetans, forming a distinct Himalayan group, different from other mainland populations of South and East Asia. ADMIXTURE analysis at k=4 suggests ancestry proportions in the Ladakhi to be approximately 50% Highlander (Tibetan/Sherpa) and 50% Indo-European. These results suggest contemporary Ladakhi people are the admixed of Tibetans and Indo-Europeans. Conclusions Our results suggests a considerable component of the Ladakhi genome descends from ancestral highlander populations residing on the Tibetan plateau for the last 35,000 years, with subsequent admixture with neighbouring Indo-European populations., Background The EU recognises rare disease (RD) as life threatening with delays in establishing a diagnosis and treatment. The Irish National Plan for RDs (2014) recommended epidemiological studies of RD prevalence to improve both cost efficiencies and care of patients with RD’s. Objective To derive the incidence of paediatric RD and the number of paediatric RD mortality cases through analysis of records held at two major tertiary paediatric hospitals, for children born in the year 2000. Methods Cases were identified using electronic/manual records from: the National Paediatric Mortality Registry office; Clinical, Cytogenetics and Molecular genetics database; Radiology and the Hospital In-Patient Enquiry system (HIPE). In addition a detailed analysis of national death registration information for RDs from 2006-2016 was undertaken along with a 2year study (2015-2016) of inpatient RD deaths. Results There were 54,789 livebirths in 2000. Genetics records identified 801 cases of RDs Ongoing HIPE searches identified 1381 cases. Mortality data revealed that of all deaths on the Register (2006-2016), (n=4044) aged 0-14, 58.56% (n=2368) had a RD diagnosis with age distribution; Neonates, 56% (1140/2050), Post-neonates, 58% (450/778), Children aged 1-14 years, 64% (778/1216). Of the total (n=234) inpatient deaths with a RD from 2015-2016, 52.6% (n=123) were cared for at the two major centres. Conclusion This study to-date has identified > 2,200 RD patients presenting by age 17 giving a minimum incidence of 4% for paediatric RDs. We expect the final figure to be higher when we complete analysis of all the HIPE and sub-specialty data from these major centres., Autosomal dominant polycystic kidney disease (ADPKD) is the most common inherited renal disease. ADPKD is primarily caused by variants in PKD1 and PKD2. Sequencing of PKD1 is difficult due to multiple pseudogenes. There is unexplained variance in the age-of-onset of PKD, even within families. Aim 1) Establish a targeted NGS panel to improve molecular diagnosis of PKD and 2) characterize large ‘super-families’ for the study of new ADPKD genes and genetic modifiers. Methods NGS was performed using a custom Roche SeqCap targeted panel (273 genes) and Illumina NextSeq. Bioinformatics was performed using an in-house GATK pipeline. Pathogenicity was assigned using American College of Medical Genetics and Genomics guidelines and Mayo Clinic PKD in-house methods. Gap-filling Sanger sequencing was utilized in unsolved cases Results 172 PKD patients were sequenced with average coverage 189X. A molecular diagnosis meeting pathogenicity criteria was obtained in 82% (141/172) of patients following gap-filling Sanger of PKD1 and PKD2 (n=41). 46 of the PKD-causing variants we detected were novel. We identified 13 rare, diagnostic PKD variants shared across multiple affected individuals recorded clinically as having no known familial relationship. Second-degree relatedness was confirmed via clinical follow-up. These families form the basis for the assembly of PKD ‘super-families’. Conclusions NGS is suitable for sequencing of PKD genes including PKD1, although some gap filling by Sanger is required for complete coverage. We have identified 13 potential ADPKD ‘super-families’ using genomic data for further study. These results are improving diagnostics of ADPKD in the Irish renal clinic., Purpose Target5000 is a genetic study to detect and characterise variants associated with inherited retinal degenerations (IRD). Choroideremia is an X-Linked recessive chorioretinal degenerative condition with progressive atrophy of several key cells of the retina and the surrounding blood retinal barrier. Here we describe a novel deletion in the CHM gene found in two Irish pedigrees. This 500kb deletion represents the largest yet detected IRD-associated deletion in Ireland. Approach As part of the Irish IRD registry, Target5000, patients with inherited retinal degenerative conditions are recruited. Target capture sequencing was employed to investigate variation in 254 IRD-associated genes. Upon detection of the deletion in CHM, PCR analysis was used to elucidate the full extent of the deletion. Results Two members of a large X-linked Retinitis Pigmentosa pedigree clinically presented with choroideremia and tested negative for the segregating RPGR variant found in other affected members of this pedigree. Both males were sequenced and found to possess large deletions spanning the CHM gene, totalling 500kb. This deletion has also been detected in a second Irish pedigree since its discovery. Two additional males and two carrier females from this second pedigree were all found to be severely affected with progressive choroideremia. Conclusions Typically, female carriers of CHM mutations show mild stationary signs with no symptoms, while males are severely affected. In this instance, females were more severely affected than expected with advanced signs of degeneration and progressive visual decline. This is possibly due to random X-inactivation and the severity of CHM gene deletion., Introduction The largest cohort of patients at The National Centre for Adult Inherited Metabolic Disorders (NCIMD) have Phenylketonuria (PKU). The NCIMD manages patients transitioned from Paediatric services upon reaching adulthood. Improved treatments have extended life expectancy and increased quality of life for patients with PKU; however diet and supplements remained the only means of treatment for life until the recent introduction of Sapropterin dihydrochloride. Aim To analyse the genotype of the PKU cohort in attendance at The NCIMD with a focus on responsiveness to Sapropterin dihydrochloride. Method The data are collated from when the Adult unit was first established in 2013 until the end of May 2019. Exclusion criteria include patients over the age of 53 and patients who have two negatively indicated genotypes for the use of Sapropterin dihydrochloride. Genotypes are recorded in a secured database onsite and descriptive analyses were performed. Results The total number of patients examined is 282; 104 were male (36.8%) and 178 were female (63.1%). The total samples processed and available for analysis were 148 (male= 46, 31%; female= 102, 68.9%). The frequency of Saptopterin dihydrochloride responsiveness in both alleles was observed (responsive= 15, 10%; unresponsive= 48, 48.33%; uncertain= 85, 57%). The most common alleles recorded were R408W (41.1%), F39L (13.8%), 165T (11.2%), and L249F (3.8%). Conclusion Due to the uncertainty surrounding Sapropterin dihydrochloride responsiveness for various common mutations in the Irish PKU cohort, there is a need for greater genetic and metabolic collaboration. Analysis and treatment may be impacted by time elapsed from sending samples to receiving results., Introduction The Department of Clinical Genetics at CHI provides services for individuals affected by or at risk of a genetic condition in the Republic of Ireland. There are currently 3,283 referrals waiting to be seen, of whom 930 are waiting longer that the HSE standard of 18 months. A negative consequence of a long waiting list is that patients die whilst waiting. Resulting harm includes: 1) no diagnosis 2) no genetic testing, no DNA stored, 3) family unaware of a hereditary disorder, denied screening, 4) relatives having unnecessary screening as no predictive test for family, 5) future pregnancy options limited if paediatric proband undiagnosed. As of 13/06/2019, we have recorded 33 deaths on our waiting list. We began to systematically collect data on deaths since March 2018. This study concentrates on these cases; n=15/33. Aims To identify the consequences to the relatives of these 15 referrals. Results Nine were adult cancer genetic referrals, 5/9 diagnostic, 3/9 predictive, and a further case had NF2. Only 1/9 had DNA stored. Two adult patients had a cardiac family history (Marfan syndrome, cardiomyopathy) respectively. Neither had DNA stored. Four paediatric patients had multiple malformations secondary to a chromosomal or genetic syndrome. In 3/4 a diagnosis had already been reached. The fourth case, who died unexpectedly of unrelated causes, had no DNA stored. Summary 11/15 patients who died did not have DNA stored, precluding diagnosis and risk calculation for their relatives. As each extended 3 generation Irish family has ~64 relatives, lack of diagnosis has far reaching consequences., Background Women who carry a pathogenic variant in either a BRCA1 or BRCA2 gene have a high lifetime risk of developing breast and tubo-ovarian cancer. To manage this risk, women may choose to undergo risk-reducing surgery to remove breast tissue, ovaries and fallopian tubes. Surgery should increase survival, but can impact women’s lives adversely at a psychological and psychosexual level. Interventions to facilitate psychological adjustment and improve quality of life post risk-reducing surgery are needed. Aim of Review To examine psychosocial interventions in female BRCA carriers who have undergone risk-reducing surgery and to evaluate the effectiveness of such interventions on psychological adjustment and quality of life. Methods We searched the Cochrane Central Register of Controlled trials (CENTRAL) in the Cochrane Library, MEDLINE via Ovid, Embase via Ovid, CINAHL, PsycINFO, Web of Science and Scopus up to April 2019. Results We identified two studies; one randomised controlled trial and one nonrandomised study. Conclusions The effect of psychosocial interventions on quality of life and emotional well-being in female BRCA carriers who undergo risk-reducing surgery is uncertain given limited high quality evidence. Next Generation Sequencing, along with targeted cancer treatments, increasing knowledge around the biology of cancers and the results of the 100K Genome Project will open up genetic testing to many more women. For as long as surgical interventions remain the dominant risk-reducing option for management of women with a deleterious BRCA gene, health professionals have a responsibility to ensure there is provision to holistically manage the outcomes of such surgery., Introduction FATCO (Fibular Aplasia, Tibial Campomelia and Oligosyndactyly) syndrome is a rare descriptive diagnosis first defined by Courtens et al. in 2005, who recognised a comparable pattern of malformations with his own case and 4 others described in the literature. Aetiology remains unknown, however defects involved in SHH (Sonic hedgehog) gene expression have been proposed. Case Description We report on a term male infant born with severe malformations. On examination, there was absence of the left radius and ulna, bilateral anterior angulation of lower limbs with skin dimpling overlying. Both ankle joints were dysplastic and there was oligosyndactly of both feet. Right upper limb was normal. X-rays of the limbs revealed dysplastic tibiae, absence of both fibulae, a right foot containing 3 ossified metatarsals with 2 formed digits, and a left foot with a single ossified metatarsal and two soft tissue digits with small bony elements. The infant had no other associated anomalies, and is developmentally appropriate at 1 year. Management included Symes amputation, prosthetics and following genetic referral FATCO syndrome was suggested as the best fitting diagnosis. Whole genome sequencing of the infants blood is currently being performed. Discussion This is an important case to report as there are very few descriptions in the literature, In keeping with the majority of reports, this case appears to be sporadic and development is normal. Our case is male, keeping with preponderance. Treatment aims at optimising functionality of limbs and stabilisations of joints., Introduction Fibrous cephalic plaques (FCP) are a characteristic manifestation of tuberous sclerosis complex (TSC) and occur in one third of cases. Their natural history and long term course is unknown, as is the outcome of long term follow-up of TSC cases in old age. Phenotype and methods We describe an 80 year old with TSC due to a c.2784dupC TSC2 mutation, who was diagnosed in infancy with an FCP and was regularly followed up at the TSC clinic over 8 decades with regular epilepsy treatment and renal monitoring. Results Regular clinical photography and clinical records document the plaque at different ages. The FCP naturally resolved at 74 years. Facial angiofibromas also faded with time in the last decade. His epilepsy and renal abnormalities remained under control with careful surveillance and monitoring. Discussion Natural aging in the eighth decade causes progressive laxity of collagen and leads to natural resolution of FCPs. This novel finding with a unique 80 year follow up yields valuable insights into the aging changes within FCPs and facial angiofibromas as the pathways linking facial angiofibromas and FCP’s through the TGF-β1 pathway are now being elucidated. Conclusion We present a clinical odyssey showing the natural progression and history of FCPs in TSC and comment on the mechanistic pathways allowing potential interventions in this disfiguring condition. TSC cases can be successfully managed and complications – particularly in the brain and kidney, can be avoided over an entire lifetime. This is encouraging for long term prospects for patients with TSC., Introduction Fabry disease is an X-linked inherited disorder due to deficient activity of the enzyme alpha-galactosidase A and progressive lysosomal deposition of globotriaosylceramide in cells. Aim To report the genotype/phenotype landscape of the adult Fabry disease cohort attending The National Centre for Adult Inherited Metabolic Disorders (NCIMD). Method All Fabry patients (N=70) attending NCIMD until end of May 2019 were included in this analysis. Genotypes and phenotypes were recorded by chart review. Descriptive analyses were performed. Result 26 (37.1%) were male (median age 43 [32:54]) and 44 (62.9%) were female (median age 46 [25:61]). The AGAL pathogenic variants were missense (52, 74.3%), deletion (9, 12.9%), nonsense (8, 11.4%) and duplication (1, 1.4%). Most missense variants occurred in exon 2 (25%), exon 3 (19.2%), exon 5 (23.1%) and exon 6 (21.2%). 21.2% of missense variants were N215S. 28 patients were on enzyme therapy and 2 were on oral chaperone therapy. The incidence of cardiac (M=18/26; F=18/44; p=0.021), renal (M=14/26; F=18/44; p=0.304), neurological (M=17/26; F=20/44; p=0.107) and hearing (M=14/26; F=19/44; p=0.399) involvement were observed. Within N215S cohort, 2 had hypertrophic cardiomyopathy and 5 with a degree of left ventricular hypertrophy. Conclusion Pathogenic variants were observed across the AGAL gene in the cohort. Incidence of cardiac involvement in both genders is similar. Females had more frequently observed renal, neurological and hearing involvement. N215S AGAL variant is the most common variant which is associated with a predominant cardiac phenotype, thus collaboration between clinical geneticists and cardiovascular physicians are important when establishing diagnosis and management., Background Hypertrophic cardiomyopathy (HCM) is the most common inherited cardiovascular disease with a worldwide prevalence of 1:500. Genetic etiology is suspected in up to 50% of HCM patients. To gain insight into the diagnostic yield and mutation spectrum of HCM, a retrospective review was performed for 114 consecutive cases with a clinical suspicion of HCM who underwent multigene panel testing at our laboratory between 2014 and 2019. Method Data was manually extracted from laboratory reports with respect to indication for testing, number of genes on panel, variants identified and classification at the time of testing. Results A total of 114 patients with a diagnosis of HCM had samples submitted for diagnostic testing using a multigene panel of between 16 and 20 genes, depending on the year of testing. 56 patients had no genetic variant identified, 33 patients had a pathogenic or likely pathogenic variant identified and 25 had a variant of uncertain significance identified. One 11 year old patient had a normal result from an 18 gene panel for HCM, but was later diagnosed with Friedrich ataxia. One adult female patient had a normal result from a 19 gene panel but was later diagnosed with Fabry disease. Conclusion Clinically actionable ‘Pathogenic’ or ‘Likely pathogenic’ variants were identified in 29% of patients with a Clinical diagnosis of Hypertrophic Cardiomyopathy with VUS being identified in 22%. The most common 2 genes in which clinically actionable variants were found were MYH7 (47%) and MYBPC3 (31%)., Huntington’s disease (HD) is an inherited progressive neurodegenerative condition. In the Republic of Ireland genetic testing for HD is available via two routes. Symptomatic individuals can access testing via a Neurologist. Asymptomatic individuals with a known family history of HD can seek testing via a genetic counselling multi-step process. Aim The aim of the audit was to review the activity of the HD specialty clinic. Methods Retrospective chart, laboratory and clinical database review for HD referrals received for 2016, 2017 and 2018 was carried out. Parameters examined included: number of referrals, age profile, motivation for testing, results. Results Over this 3 year period 93 referrals were received. 80 referrals were for predictive testing and 13 for genetic counselling post testing through neurology. The youngest person was 18 years of age at time of referral. More females requested a referral for predictive testing than males, 48 (60%) and 32 (40%) respectfully. The most common motivation given for predictive testing was with regard to family planning and concerns for children and to help them plan for the future. Of the 30 tests carried out to date, 52% were mutation positive and 42% were mutation negative. The average age of those who proceeded with testing was 37yrs. Conclusion These findings reflect data published from the UK with regard to age of presentation and female to male bias. The most common motivation for testing was family planning unlike the UK where the most common reason provided was to reduce uncertainty.

Published

2020

3. Unprecedentedly efficient CUG initiation of an overlapping reading frame inPOLGmRNA yields novel protein POLGARF

Author

Loughran, G, primary, Zhdanov, AV, additional, Mikhaylova, MS, additional, Rozov, FN, additional, Datskevich, PN, additional, Kovalchuk, SI, additional, Serebryakova, MV, additional, Kiniry, S, additional, Michel, AM, additional, O’Connor, PBF, additional, Papkovsky, DB, additional, Atkins, JF, additional, Baranov, PV, additional, Shatsky, IN, additional, and Andreev, DE, additional

Published

2020

4. RiboSeq.Org: an integrated suite of resources for ribosome profiling data analysis and visualization.

Author

Tierney JAS, Świrski MI, Tjeldnes H, Kiran AM, Carancini G, Kiniry SJ, Michel AM, Kufel J, Valen E, and Baranov PV

Subjects

Protein Biosynthesis, Web Browser, Humans, Transcriptome, Sequence Analysis, RNA methods, Ribosome Profiling, Ribosomes metabolism, Ribosomes genetics, Software

Abstract

Ribosome profiling (Ribo-Seq) has revolutionised our understanding of translation, but the increasing complexity and volume of Ribo-Seq data present challenges for its reuse. Here, we formally introduce RiboSeq.Org, an integrated suite of resources designed to facilitate Ribo-Seq data analysis and visualisation within a web browser. RiboSeq.Org comprises several interconnected tools: GWIPS-viz for genome-wide visualisation, Trips-Viz for transcriptome-centric analysis, RiboGalaxy for data processing and the newly developed RiboSeq data portal (RDP) for centralised dataset identification and access. The RDP currently hosts preprocessed datasets corresponding to 14840 sequence libraries (samples) from 969 studies across 96 species, in various file formats along with standardised metadata. RiboSeq.Org addresses key challenges in Ribo-Seq data reuse through standardised sample preprocessing, semi-automated metadata curation and programmatic information access via a REST API and command-line utilities. RiboSeq.Org enhances the accessibility and utility of public Ribo-Seq data, enabling researchers to gain new insights into translational regulation and protein synthesis across diverse organisms and conditions. By providing these integrated, user-friendly resources, RiboSeq.Org aims to lower the barrier to reproducible research in the field of translatomics and promote more efficient utilisation of the wealth of available Ribo-Seq data., (© The Author(s) 2024. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2025

5. Triple coding in human SRD5A1 mRNA.

Author

Yordanova MM, Slattery C, Baranova-Gurvich M, Engels M, Ting O, Świrski M, Tierney JAS, Tjeldnes H, Mudge J, Loughran G, Andreev DE, and Baranov PV

Abstract

Background: Nucleotide sequence can be translated in three reading frames from 5' to 3' producing distinct protein products. Many examples of RNA translation in two reading frames (dual coding) have been identified so far., Results: We report simultaneous translation of mRNA transcripts derived from SRD5A1 locus in all three reading frames that result in the synthesis of long proteins. This occurs due to initiation at three nearby AUG codons occurring in all three-reading frame. Only one of the three proteoforms contains the conserved catalytical domain of SDRD5A1 produced either from the second or the third AUG codon depending on the transcript. Paradoxically, ribosome profiling data and expression reporters indicate that the most efficient translation produces catalytically inactive proteoforms. While phylogenetic analysis suggests that the long triple decoding region is specific to primates, occurrence of nearby AUGs in all three reading frames is ancestral to placental mammals. This suggests that their evolutionary significance belongs to regulation of translation rather than biological role of their products. By analysing multiple publicly available ribosome profiling data and with gene expression assays carried out in different cellular environments, we show that relative expression of these proteoforms is mutually dependent and vary across environments supporting this conjecture. A remarkable feature of triple decoding is its resistance to indel mutations with apparent implications to clinical interpretation of genomic variants., Conclusion: We argue for the importance of identification, characterisation and annotation of productive RNA translation irrespective of the presumed biological roles of the products of this translation., Competing Interests: Competing interests PVB and GL are cofounders of EIRNABio

Published

2024

6. Translation Complex Profile Sequencing Allows Discrimination of Leaky Scanning and Reinitiation in Upstream Open Reading Frame-controlled Translation.

Author

Andreev DE, Tierney JAS, and Baranov PV

Subjects

Humans, Peptide Chain Initiation, Translational, Codon, Initiator genetics, Gene Expression Regulation, Open Reading Frames genetics, Protein Biosynthesis, RNA, Messenger genetics, RNA, Messenger metabolism

Abstract

Upstream open reading frames (uORFs) are a class of translated regions (translons) in mRNA 5' leaders. uORFs are believed to be pervasive regulators of the translation of mammalian mRNAs. Some uORFs are highly repressive but others have little or no impact on downstream mRNA translation either due to inefficient recognition of their start codon(s) or/and due to efficient reinitiation after uORF translation. While experiments with uORF reporter constructs proved to be instrumental in the investigation of uORF-mediated mechanisms of translation control, they can have serious limitations as manipulations with uORF sequences can yield various artefacts. Here we propose a general approach for using translation complex profiling (TCP-seq) data for exploring uORF regulatory characteristics. Using several examples, we show how TCP-seq could be used to estimate both repressiveness and modes of action of individual uORFs. We demonstrate how this approach could be used to assess the mechanisms of uORF-mediated translation control in the mRNA of several human genes, including EIF5, IFRD1, MDM2, MIEF1, PPP1R15B, TAF7, and UCP2., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: “P.V.B. is a co-founder and a shareholder of Eirna Bio. The remaining authors declare no competing interests.”., (Copyright © 2024. Published by Elsevier Ltd.)

Published

2024

7. Programmed ribosomal frameshifting during PLEKHM2 mRNA decoding generates a constitutively active mediator of kinesin-1-dependent lysosome transport.

Author

Khan YA, De Pace R, Jungreis I, Carancini G, Mudge JM, Wang J, Kellis M, Atkins JF, Baranov PV, Firth AE, Bonifacino JS, and Loughran G

Abstract

Programmed ribosomal frameshifting is a translational recoding phenomenon in which a proportion of ribosomes are stimulated to slip backwards or forwards on an mRNA 1 , rephasing the ribosome relative to the mRNA. While frameshifting is often employed by viruses 2 , very few phylogenetically conserved examples are known in vertebrate genes and the evidence for some of these is controversial 3,4 . Here we report a +1 frameshifting signal in the coding sequence of the human gene PLEKHM2 , encoding the ARL8-dependent, lysosome-kinesin-1 adaptor protein PLEKHM2 5 . This +1 frameshifting signal, UCC_UUU_CGG, is highly conserved in vertebrates and exhibits an influenza virus-like frameshift motif with similar efficiency 6,7 . Purification and mass spectrometry of GFP-tagged trans-frame protein from cells confirms frameshifting. Structure prediction shows that the new C-terminal domain generated by this frameshift forms an alpha-helix. This additional domain relieves PLEKHM2 from autoinhibition, allowing it to move to the tips of cells via association with kinesin-1 without requiring activation by ARL8. Thus, the frameshift proteoform generates a constitutively active adaptor of kinesin-1.

Published

2024

8. Ribosome decision graphs for the representation of eukaryotic RNA translation complexity.

Author

Tierney JAS, Świrski M, Tjeldnes H, Mudge JM, Kufel J, Whiffin N, Valen E, and Baranov PV

Subjects

Humans, Open Reading Frames, Eukaryota genetics, Ribosomes metabolism, Ribosomes genetics, Protein Biosynthesis, RNA, Messenger genetics, RNA, Messenger metabolism

Abstract

The application of ribosome profiling has revealed an unexpected abundance of translation in addition to that responsible for the synthesis of previously annotated protein-coding regions. Multiple short sequences have been found to be translated within single RNA molecules, within both annotated protein-coding and noncoding regions. The biological significance of this translation is a matter of intensive investigation. However, current schematic or annotation-based representations of mRNA translation generally do not account for the apparent multitude of translated regions within the same molecules. They also do not take into account the stochasticity of the process that allows alternative translations of the same RNA molecules by different ribosomes. There is a need for formal representations of mRNA complexity that would enable the analysis of quantitative information on translation and more accurate models for predicting the phenotypic effects of genetic variants affecting translation. To address this, we developed a conceptually novel abstraction that we term ribosome decision graphs (RDGs). RDGs represent translation as multiple ribosome paths through untranslated and translated mRNA segments. We termed the latter "translons." Nondeterministic events, such as initiation, reinitiation, selenocysteine insertion, or ribosomal frameshifting, are then represented as branching points. This representation allows for an adequate representation of eukaryotic translation complexity and focuses on locations critical for translation regulation. We show how RDGs can be used for depicting translated regions and for analyzing genetic variation and quantitative genome-wide data on translation for characterization of regulatory modulators of translation., (© 2024 Tierney et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2024

9. Ribosome profiling reveals downregulation of UMP biosynthesis as the major early response to phage infection.

Author

O'Connor PBF, Mahony J, Casey E, Baranov PV, van Sinderen D, and Yordanova MM

Subjects

Ribosome Profiling, Down-Regulation, RNA, Messenger metabolism, Nucleotides metabolism, Uridine Monophosphate metabolism, Protein Biosynthesis, Bacteriophages genetics, Bacteriophages metabolism, Lactococcus

Abstract

Bacteria have evolved diverse defense mechanisms to counter bacteriophage attacks. Genetic programs activated upon infection characterize phage-host molecular interactions and ultimately determine the outcome of the infection. In this study, we applied ribosome profiling to monitor protein synthesis during the early stages of sk1 bacteriophage infection in Lactococcus cremoris . Our analysis revealed major changes in gene expression within 5 minutes of sk1 infection. Notably, we observed a specific and severe downregulation of several pyr operons which encode enzymes required for uridine monophosphate biosynthesis. Consistent with previous findings, this is likely an attempt of the host to starve the phage of nucleotides it requires for propagation. We also observed a gene expression response that we expect to benefit the phage. This included the upregulation of 40 ribosome proteins that likely increased the host's translational capacity, concurrent with a downregulation of genes that promote translational fidelity ( lepA and raiA ). In addition to the characterization of host-phage gene expression responses, the obtained ribosome profiling data enabled us to identify two putative recoding events as well as dozens of loci currently annotated as pseudogenes that are actively translated. Furthermore, our study elucidated alterations in the dynamics of the translation process, as indicated by time-dependent changes in the metagene profile, suggesting global shifts in translation rates upon infection. Additionally, we observed consistent modifications in the ribosome profiles of individual genes, which were apparent as early as 2 minutes post-infection. The study emphasizes our ability to capture rapid alterations of gene expression during phage infection through ribosome profiling., Importance: The ribosome profiling technology has provided invaluable insights for understanding cellular translation and eukaryotic viral infections. However, its potential for investigating host-phage interactions remains largely untapped. Here, we applied ribosome profiling to Lactococcus cremoris cultures infected with sk1, a major infectious agent in dairy fermentation processes. This revealed a profound downregulation of genes involved in pyrimidine nucleotide synthesis at an early stage of phage infection, suggesting an anti-phage program aimed at restricting nucleotide availability and, consequently, phage propagation. This is consistent with recent findings and contributes to our growing appreciation for the role of nucleotide limitation as an anti-viral strategy. In addition to capturing rapid alterations in gene expression levels, we identified translation occurring outside annotated regions, as well as signatures of non-standard translation mechanisms. The gene profiles revealed specific changes in ribosomal densities upon infection, reflecting alterations in the dynamics of the translation process., Competing Interests: P.V.B. is co-founder and shareholder of EIRNA Bio.

Published

2024

10. Impact of eIF2α phosphorylation on the translational landscape of mouse embryonic stem cells.

Author

Amiri M, Kiniry SJ, Possemato AP, Mahmood N, Basiri T, Dufour CR, Tabatabaei N, Deng Q, Bellucci MA, Harwalkar K, Stokes MP, Giguère V, Kaufman RJ, Yamanaka Y, Baranov PV, Tahmasebi S, and Sonenberg N

Subjects

Animals, Mice, Embryonic Stem Cells metabolism, Phosphorylation, RNA, Messenger metabolism, Eukaryotic Initiation Factor-2 metabolism, Mouse Embryonic Stem Cells metabolism, Pluripotent Stem Cells metabolism

Abstract

The integrated stress response (ISR) is critical for cell survival under stress. In response to diverse environmental cues, eIF2α becomes phosphorylated, engendering a dramatic change in mRNA translation. The activation of ISR plays a pivotal role in the early embryogenesis, but the eIF2-dependent translational landscape in pluripotent embryonic stem cells (ESCs) is largely unexplored. We employ a multi-omics approach consisting of ribosome profiling, proteomics, and metabolomics in wild-type (eIF2α +/+ ) and phosphorylation-deficient mutant eIF2α (eIF2α A/A ) mouse ESCs (mESCs) to investigate phosphorylated (p)-eIF2α-dependent translational control of naive pluripotency. We show a transient increase in p-eIF2α in the naive epiblast layer of E4.5 embryos. Absence of eIF2α phosphorylation engenders an exit from naive pluripotency following 2i (two chemical inhibitors of MEK1/2 and GSK3α/β) withdrawal. p-eIF2α controls translation of mRNAs encoding proteins that govern pluripotency, chromatin organization, and glutathione synthesis. Thus, p-eIF2α acts as a key regulator of the naive pluripotency gene regulatory network., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

11. Addendum: Thousands of human non-AUG extended proteoforms lack evidence of evolutionary selection among mammals.

Author

Fedorova AD, Kiniry SJ, Andreev DE, Mudge JM, and Baranov PV

Subjects

Animals, Humans, Biological Evolution, Mammals genetics

Published

2024

12. Ribosome Decision Graphs for the Representation of Eukaryotic RNA Translation Complexity.

Author

Tierney JAS, Świrski M, Tjeldnes H, Mudge JM, Kufel J, Whiffin N, Valen E, and Baranov PV

Abstract

The application of ribosome profiling has revealed an unexpected abundance of translation in addition to that responsible for the synthesis of previously annotated protein-coding regions. Multiple short sequences have been found to be translated within single RNA molecules, both within annotated protein-coding and non-coding regions. The biological significance of this translation is a matter of intensive investigation. However, current schematic or annotation-based representations of mRNA translation generally do not account for the apparent multitude of translated regions within the same molecules. They also do not take into account the stochasticity of the process that allows alternative translations of the same RNA molecules by different ribosomes. There is a need for formal representations of mRNA complexity that would enable the analysis of quantitative information on translation and more accurate models for predicting the phenotypic effects of genetic variants affecting translation. To address this, we developed a conceptually novel abstraction that we term Ribosome Decision Graphs (RDGs). RDGs represent translation as multiple ribosome paths through untranslated and translated mRNA segments. We termed the later 'translons'. Non-deterministic events, such as initiation, re-initiation, selenocysteine insertion or ribosomal frameshifting are then represented as branching points. This representation allows for an adequate representation of eukaryotic translation complexity and focuses on locations critical for translation regulation. We show how RDGs can be used for depicting translated regions, analysis of genetic variation and quantitative genome-wide data on translation for characterisation of regulatory modulators of translation., Competing Interests: Conflict of Interests P.V.B. is a co-founder and a shareholder of Eirna Bio.

Published

2023

13. RiboGalaxy: A Galaxy-based Web Platform for Ribosome Profiling Data Processing - 2023 Update.

Author

Fedorova AD, Tierney JAS, Michel AM, and Baranov PV

Subjects

Reproducibility of Results, Ribosomes genetics, Ribosomes metabolism, RNA, Messenger genetics, Internet, Protein Biosynthesis, Ribosome Profiling methods, Software

Abstract

Ribosome profiling (Ribo-Seq) captures a "snapshot" of ribosomes' locations at the entire transcriptome of a cell at sub-codon resolution providing insights into gene expression and enabling the discovery of novel translated regions. RiboGalaxy (https://ribogalaxy.genomicsdatascience.ie/), a Galaxy-based platform for processing Ribo-Seq data is a RiboSeq.Org (https://riboseq.org/) resource. RiboSeq.Org is an online gateway to a set of integrated tools for the processing and analysis of Ribo-Seq data. In this RiboGalaxy update we introduce changes to both the tools available on RiboGalaxy and to how the resource is managed on the backend. For example, in order to improve interoperability between Riboseq.Org resources, we added tools that link RiboGalaxy outputs with Trips-Viz and GWIPS-viz browsers for downstream analysis and visualisation. RiboGalaxy's backend now utilises Ansible configuration management which enhances its stability and jobs are executed within Singularity containers and are managed by Slurm, strengthening reproducibility and performance respectively., Competing Interests: Declaration of Competing Interest P.V.B. and A.M.M. are co-founders of EIRNA Bio Ltd., a company that offers ribosome profiling analysis., (Copyright © 2023 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2023

14. Nontriplet feature of genetic code in Euplotes ciliates is a result of neutral evolution.

Author

Gaydukova SA, Moldovan MA, Vallesi A, Heaphy SM, Atkins JF, Gelfand MS, and Baranov PV

Subjects

Genetic Code, Base Sequence, Codon, Terminator genetics, Codon, Terminator metabolism, Genetic Drift, Euplotes genetics, Euplotes metabolism, Ciliophora genetics

Abstract

The triplet nature of the genetic code is considered a universal feature of known organisms. However, frequent stop codons at internal mRNA positions in Euplotes ciliates ultimately specify ribosomal frameshifting by one or two nucleotides depending on the context, thus posing a nontriplet feature of the genetic code of these organisms. Here, we sequenced transcriptomes of eight Euplotes species and assessed evolutionary patterns arising at frameshift sites. We show that frameshift sites are currently accumulating more rapidly by genetic drift than they are removed by weak selection. The time needed to reach the mutational equilibrium is several times longer than the age of Euplotes and is expected to occur after a several-fold increase in the frequency of frameshift sites. This suggests that Euplotes are at an early stage of the spread of frameshifting in expression of their genome. In addition, we find the net fitness burden of frameshift sites to be noncritical for the survival of Euplotes . Our results suggest that fundamental genome-wide changes such as a violation of the triplet character of genetic code can be introduced and maintained solely by neutral evolution.

Published

2023

15. Monitoring translation in all reading frames downstream of weak stop codons provides mechanistic insights into the impact of nucleotide and cellular contexts.

Author

Loughran G, Li X, O'Loughlin S, Atkins JF, and Baranov PV

Subjects

Nucleotides metabolism, Ribosomes genetics, Ribosomes metabolism, Codon, Terminator metabolism, Protein Biosynthesis, Reading Frames

Abstract

A stop codon entering the ribosome A-site is normally decoded by release factors that induce release of the polypeptide. Certain factors influence the efficiency of the termination which is in competition with elongation in either the same (readthrough) or an alternative (frameshifting) reading frame. To gain insight into the competition between these processes, we monitored translation in parallel from all three reading frames downstream of stop codons while changing the nucleotide context of termination sites or altering cellular conditions (polyamine levels). We found that P-site codon identity can have a major impact on the termination efficiency of the OPRL1 stop signal, whereas for the OAZ1 ORF1 stop signal, the P-site codon mainly influences the reading frame of non-terminating ribosomes. Changes to polyamine levels predominantly influence the termination efficiency of the OAZ1 ORF1 stop signal. In contrast, increasing polyamine levels stimulate readthrough of the OPRL1 stop signal by enhancing near-cognate decoding rather than by decreasing termination efficiency. Thus, by monitoring the four competing processes occurring at stop codons we were able to determine which is the most significantly affected upon perturbation. This approach may be useful for the interrogation of other recoding phenomena where alternative decoding processes compete with standard decoding., (© The Author(s) 2022. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2023

16. No stopping with a short-stem transfer RNA.

Author

Baranov PV and Atkins JF

Subjects

RNA, Transfer

Published

2023

17. Streptomyces rare codon UUA: from features associated with 2 adpA related locations to candidate phage regulatory translational bypassing.

Author

Antonov IV, O'Loughlin S, Gorohovski AN, O'Connor PBF, Baranov PV, and Atkins JF

Subjects

Gene Expression Regulation, Bacterial, Bacterial Proteins genetics, Bacterial Proteins metabolism, Codon metabolism, Streptomyces genetics, Streptomyces metabolism, Bacteriophages genetics, Bacteriophages metabolism

Abstract

In Streptomyces species, the cell cycle involves a switch from an early and vegetative state to a later phase where secondary products including antibiotics are synthesized, aerial hyphae form and sporulation occurs. AdpA, which has two domains, activates the expression of numerous genes involved in the switch from the vegetative growth phase. The adpA mRNA of many Streptomyces species has a UUA codon in a linker region between 5' sequence encoding one domain and 3' sequence encoding its other and C-terminal domain. UUA codons are exceptionally rare in Streptomyces, and its functional cognate tRNA is not present in a fully modified and acylated form, in the early and vegetative phase of the cell cycle though it is aminoacylated later. Here, we report candidate recoding signals that may influence decoding of the linker region UUA. Additionally, a short ORF 5' of the main ORF has been identified with a GUG at, or near, its 5' end and an in-frame UUA near its 3' end. The latter is commonly 5 nucleotides 5' of the main ORF start. Ribosome profiling data show translation of that 5' region. Ten years ago, UUA-mediated translational bypassing was proposed as a sensor by a Streptomyces phage of its host's cell cycle stage and an effector of its lytic/lysogeny switch. We provide the first experimental evidence supportive of this proposal.

Published

2023

18. Thousands of human non-AUG extended proteoforms lack evidence of evolutionary selection among mammals.

Author

Fedorova AD, Kiniry SJ, Andreev DE, Mudge JM, and Baranov PV

Subjects

Animals, Humans, Phylogeny, Codon genetics, Codon metabolism, Proteins metabolism, Protein Biosynthesis, Open Reading Frames genetics, Mammals genetics, Mammals metabolism, Ribosomes metabolism, Genomics

Abstract

The synthesis of most proteins begins at AUG codons, yet a small number of non-AUG initiated proteoforms are also known. Here we analyse a large number of publicly available Ribo-seq datasets to identify novel, previously uncharacterised non-AUG proteoforms using Trips-Viz implementation of a novel algorithm for detecting translated ORFs. In parallel we analyse genomic alignment of 120 mammals to identify evidence of protein coding evolution in sequences encoding potential extensions. Unexpectedly we find that the number of non-AUG proteoforms identified with ribosome profiling data greatly exceeds those with strong phylogenetic support suggesting their recent evolution. Our study argues that the protein coding potential of human genome greatly exceeds that detectable through comparative genomics and exposes the existence of multiple proteins encoded by the same genomic loci., (© 2022. The Author(s).)

Published

2022

19. Evaluating data integrity in ribosome footprinting datasets through modelled polysome profiles.

Author

Hedayioglu F, Mead EJ, O'Connor PBF, Skiotys M, Sansom OJ, Mallucci GR, Willis AE, Baranov PV, Smales CM, and von der Haar T

Subjects

Polyribosomes metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Transcriptome, Ribosomes genetics, Ribosomes metabolism, Protein Biosynthesis

Abstract

The assessment of transcriptome-wide ribosome binding to mRNAs is useful for studying the dynamic regulation of protein synthesis. Two methods frequently applied in eukaryotic cells that operate at different levels of resolution are polysome profiling, which reveals the distribution of ribosome loads across the transcriptome, and ribosome footprinting (also termed ribosome profiling or Ribo-Seq), which when combined with appropriate data on mRNA expression can reveal ribosome densities on individual transcripts. In this study we develop methods for relating the information content of these two methods to one another, by reconstructing theoretical polysome profiles from ribosome footprinting data. Our results validate both approaches as experimental tools. Although we show that both methods can yield highly consistent data, some published ribosome footprinting datasets give rise to reconstructed polysome profiles with non-physiological features. We trace these aberrant features to inconsistencies in RNA and Ribo-Seq data when compared to datasets yielding physiological polysome profiles, thereby demonstrating that modelled polysomes are useful for assessing global dataset properties such as its quality in a simple, visual approach. Aside from using polysome profile reconstructions on published datasets, we propose that this also provides a useful tool for validating new ribosome footprinting datasets in early stages of analyses., (© The Author(s) 2022. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2022

20. Evolution of naturally arising SARS-CoV-2 defective interfering particles.

Author

Girgis S, Xu Z, Oikonomopoulos S, Fedorova AD, Tchesnokov EP, Gordon CJ, Schmeing TM, Götte M, Sonenberg N, Baranov PV, Ragoussis J, Hobman TC, and Pelletier J

Subjects

Humans, SARS-CoV-2 genetics, Defective Interfering Viruses, RNA, Viral genetics, Defective Viruses genetics, COVID-19

Abstract

Defective interfering (DI) particles arise during virus propagation, are conditional on parental virus for replication and packaging, and interfere with viral expansion. There is much interest in developing DIs as anti-viral agents. Here we characterize DI particles that arose following serial passaging of SARS-CoV-2 at high multiplicity of infection. The prominent DIs identified have lost ~84% of the SARS-CoV-2 genome and are capable of attenuating parental viral titers. Synthetic variants of the DI genomes also interfere with infection and can be used as conditional, gene delivery vehicles. In addition, the DI genomes encode an Nsp1-10 fusion protein capable of attenuating viral replication. These results identify naturally selected defective viral genomes that emerged and stably propagated in the presence of parental virus., (© 2022. The Author(s).)

Published

2022

21. Lack of evidence for ribosomal frameshifting in ATP7B mRNA decoding.

Author

Loughran G, Fedorova AD, Khan YA, Atkins JF, and Baranov PV

Subjects

Humans, Luciferases genetics, Nucleic Acid Conformation, Phylogeny, RNA, Messenger genetics, RNA, Messenger metabolism, Copper-Transporting ATPases metabolism, Frameshifting, Ribosomal genetics, Polyproteins genetics, Polyproteins metabolism

Abstract

The research article describing the discovery of ribosomal frameshifting in the bacterial CopA gene also reported the occurrence of frameshifting in the expression of the human ortholog ATP7B based on assays using dual luciferase reporters. An examination of the publicly available ribosome profiling data and the phylogenetic analysis of the proposed frameshifting site cast doubt on the validity of this claim and prompted us to reexamine the evidence. We observed similar apparent frameshifting efficiencies as the original authors using the same type of vector that synthesizes both luciferases as a single polyprotein. However, we noticed anomalously low absolute luciferase activities from the N-terminal reporter that suggests interference of reporter activity or levels by the ATP7B test cassette. When we tested the same proposed ATP7B frameshifting cassette in a more recently developed reporter system in which the reporters are released without being included in a polyprotein, no frameshifting was detected above background levels., Competing Interests: Declaration of interests G.L. and P.V.B. are cofounders and shareholders of EIRNA Bio Ltd., (Copyright © 2022 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2022

22. The evolution and role of the periplasmic asparaginase Asp3 in yeast.

Author

Coral-Medina A, Fenton DA, Varela J, Baranov PV, Camarasa C, and Morrissey JP

Subjects

Asparagine, Fermentation, Nitrogen metabolism, Asparaginase genetics, Asparaginase metabolism, Saccharomyces cerevisiae metabolism

Abstract

The study of nitrogen assimilation in yeast is of interest from genetic, evolutionary, and biotechnological perspectives. Over the course of evolution, yeasts have developed sophisticated control mechanisms to regulate nitrogen metabolism, with domesticated lineages sometimes displaying particular specialisation. The focus of this study was on assimilation of asparagine, which is a significant nutritional source for some alcoholic fermentations. We were particularly interested in ASP3, which encodes a periplasmic asparaginase and that was proposed to have been acquired relatively recently in S. cerevisiae by horizontal gene transfer. We examined 1680 S. cerevisiae genome assemblies to evaluate the distribution and evolutionary trajectory of ASP3. Our findings suggest an alternative hypothesis that ASP3 is an ancient Saccharomyces gene that has generally been lost over the course of evolution but has been retained in certain fermentative environments. As asparagine is the major nitrogen source in apple juice, we explored whether the presence of ASP3 would confer a growth advantage. Interestingly, we found that although ASP3 enhances growth when asparagine is the sole nitrogen source, the same effect is not seen in apple juice. These data indicate that growth in pure culture may not reflect the original selective environment for ASP3+ strains and highlight the role that complex regulation may play in optimising nitrogen assimilation in yeasts., (© The Author(s) 2022. Published by Oxford University Press on behalf of FEMS.)

Published

2022

23. Ghrelin rapidly elevates protein synthesis in vitro by employing the rpS6K-eEF2K-eEF2 signalling axis.

Author

Zhdanov AV, Golubeva AV, Yordanova MM, Andreev DE, Ventura-Silva AP, Schellekens H, Baranov PV, Cryan JF, and Papkovsky DB

Subjects

Peptide Elongation Factor 2 metabolism, Phosphorylation, Signal Transduction physiology, Ghrelin metabolism, Protein Biosynthesis

Abstract

Activated ghrelin receptor GHS-R1α triggers cell signalling pathways that modulate energy homeostasis and biosynthetic processes. However, the effects of ghrelin on mRNA translation are unknown. Using various reporter assays, here we demonstrate a rapid elevation of protein synthesis in cells within 15-30 min upon stimulation of GHS-R1α by ghrelin. We further show that ghrelin-induced activation of translation is mediated, at least in part, through the de-phosphorylation (de-suppression) of elongation factor 2 (eEF2). The levels of eEF2 phosphorylation at Thr56 decrease due to the reduced activity of eEF2 kinase, which is inhibited via Ser366 phosphorylation by rpS6 kinases. Being stress-susceptible, the ghrelin-mediated decrease in eEF2 phosphorylation can be abolished by glucose deprivation and mitochondrial uncoupling. We believe that the observed burst of translation benefits rapid restocking of neuropeptides, which are released upon GHS-R1α activation, and represents the most time- and energy-efficient way of prompt recharging the orexigenic neuronal circuitry., (© 2022. The Author(s).)

Published

2022

24. Standardized annotation of translated open reading frames.

Author

Mudge JM, Ruiz-Orera J, Prensner JR, Brunet MA, Calvet F, Jungreis I, Gonzalez JM, Magrane M, Martinez TF, Schulz JF, Yang YT, Albà MM, Aspden JL, Baranov PV, Bazzini AA, Bruford E, Martin MJ, Calviello L, Carvunis AR, Chen J, Couso JP, Deutsch EW, Flicek P, Frankish A, Gerstein M, Hubner N, Ingolia NT, Kellis M, Menschaert G, Moritz RL, Ohler U, Roucou X, Saghatelian A, Weissman JS, and van Heesch S

Subjects

Molecular Sequence Annotation, Open Reading Frames, Protein Biosynthesis, Ribosomes metabolism

Published

2022

25. Development of a ribosome profiling protocol to study translation in Kluyveromyces marxianus.

Author

Fenton DA, Kiniry SJ, Yordanova MM, Baranov PV, and Morrissey JP

Subjects

Genome, RNA, Messenger metabolism, Kluyveromyces genetics, Kluyveromyces metabolism, Ribosomes genetics, Ribosomes metabolism

Abstract

Kluyveromyces marxianus is an interesting and important yeast because of particular traits such as thermotolerance and rapid growth, and for applications in food and industrial biotechnology. For both understanding its biology and developing bioprocesses, it is important to understand how K. marxianus responds and adapts to changing environments. For this, a full suite of omics tools to measure and compare global patterns of gene expression and protein synthesis is needed. We report here the development of a ribosome profiling method for K. marxianus, which allows codon resolution of translation on a genome-wide scale by deep sequencing of ribosome locations on mRNAs. To aid in the analysis and sharing of ribosome profiling data, we added the K. marxianus genome as well as transcriptome and ribosome profiling data to the publicly accessible GWIPS-viz and Trips-Viz browsers. Users are able to upload custom ribosome profiling and RNA-Seq data to both browsers, therefore allowing easy analysis and sharing of data. We also provide a set of step-by-step protocols for the experimental and bioinformatic methods that we developed., (© The Author(s) 2022. Published by Oxford University Press on behalf of FEMS.)

Published

2022

26. Non-AUG translation initiation in mammals.

Author

Andreev DE, Loughran G, Fedorova AD, Mikhaylova MS, Shatsky IN, and Baranov PV

Subjects

Animals, Codon, Codon, Initiator metabolism, Peptide Chain Initiation, Translational, Protein Biosynthesis, RNA, Messenger genetics, RNA, Messenger metabolism, Mammals genetics, Mammals metabolism, Ribosomes genetics, Ribosomes metabolism

Abstract

Recent proteogenomic studies revealed extensive translation outside of annotated protein coding regions, such as non-coding RNAs and untranslated regions of mRNAs. This non-canonical translation is largely due to start codon plurality within the same RNA. This plurality is often due to the failure of some scanning ribosomes to recognize potential start codons leading to initiation downstream-a process termed leaky scanning. Codons other than AUG (non-AUG) are particularly leaky due to their inefficiency. Here we discuss our current understanding of non-AUG initiation. We argue for a near-ubiquitous role of non-AUG initiation in shaping the dynamic composition of mammalian proteomes., (© 2022. The Author(s).)

Published

2022

27. Mitochondrial complex IV defects induce metabolic and signaling perturbations that expose potential vulnerabilities in HCT116 cells.

Author

Uchenunu O, Zhdanov AV, Hutton P, Jovanovic P, Wang Y, Andreev DE, Hulea L, Papadopoli DJ, Avizonis D, Baranov PV, Pollak MN, Papkovsky DB, and Topisirovic I

Subjects

HCT116 Cells, Humans, Mitochondria metabolism, Proto-Oncogene Proteins c-akt metabolism, Electron Transport Complex IV genetics, Electron Transport Complex IV metabolism, Molecular Chaperones metabolism

Abstract

Mutations in genes encoding cytochrome c oxidase (mitochondrial complex IV) subunits and assembly factors [e.g., synthesis of cytochrome c oxidase 2 (SCO2)] are linked to severe metabolic syndromes. Notwithstanding that SCO2 is under transcriptional control of tumor suppressor p53, the role of mitochondrial complex IV dysfunction in cancer metabolism remains obscure. Herein, we demonstrate that the loss of SCO2 in HCT116 colorectal cancer cells leads to significant metabolic and signaling perturbations. Specifically, abrogation of SCO2 increased NAD + regenerating reactions and decreased glucose oxidation through citric acid cycle while enhancing pyruvate carboxylation. This was accompanied by a reduction in amino acid levels and the accumulation of lipid droplets. In addition, SCO2 loss resulted in hyperactivation of the insulin-like growth factor 1 receptor (IGF1R)/AKT axis with paradoxical downregulation of mTOR signaling, which was accompanied by increased AMP-activated kinase activity. Accordingly, abrogation of SCO2 expression appears to increase the sensitivity of cells to IGF1R and AKT, but not mTOR inhibitors. Finally, the loss of SCO2 was associated with reduced proliferation and enhanced migration of HCT116 cells. Collectively, herein we describe potential adaptive signaling and metabolic perturbations triggered by mitochondrial complex IV dysfunction., (© 2022 The Authors. FEBS Open Bio published by John Wiley & Sons Ltd on behalf of Federation of European Biochemical Societies.)

Published

2022

28. A frameshift in time.

Author

Yordanova MM and Baranov PV

Subjects

RNA, Viral genetics, Reading Frames, Frameshift Mutation, Ribosomes

Abstract

The efficiency with which ribosomes shift reading frames when decoding viral RNA may change over the course of an infection., Competing Interests: MY, PB No competing interests declared, (© 2022, Yordanova and Baranov.)

Published

2022

29. Evaluating ribosomal frameshifting in CCR5 mRNA decoding.

Author

Khan YA, Loughran G, Steckelberg AL, Brown K, Kiniry SJ, Stewart H, Baranov PV, Kieft JS, Firth AE, and Atkins JF

Subjects

Nucleic Acid Conformation, RNA, Messenger genetics, RNA, Messenger metabolism, Frameshifting, Ribosomal genetics, Ribosomes genetics, Ribosomes metabolism

Published

2022

30. Immune cells alter genetic decoding in cancer.

Author

Baranov PV and Atkins JF

Subjects

Humans, Neoplasms genetics, Neoplasms immunology

Published

2022

31. Identification of a novel gene required for competitive growth at high temperature in the thermotolerant yeast Kluyveromyces marxianus .

Author

Montini N, Doughty TW, Domenzain I, Fenton DA, Baranov PV, Harrington R, Nielsen J, Siewers V, and Morrissey JP

Subjects

Hot Temperature, Temperature, Kluyveromyces, Thermotolerance genetics

Abstract

It is important to understand the basis of thermotolerance in yeasts to broaden their application in industrial biotechnology. The capacity to run bioprocesses at temperatures above 40 °C is of great interest but this is beyond the growth range of most of the commonly used yeast species. In contrast, some industrial yeasts such as Kluyveromyces marxianus can grow at temperatures of 45 °C or higher. Such species are valuable for direct use in industrial biotechnology and as a vehicle to study the genetic and physiological basis of yeast thermotolerance. In previous work, we reported that evolutionarily young genes disproportionately changed expression when yeast were growing under stressful conditions and postulated that such genes could be important for long-term adaptation to stress. Here, we tested this hypothesis in K. marxianus by identifying and studying species-specific genes that showed increased expression during high-temperature growth. Twelve such genes were identified and 11 were successfully inactivated using CRISPR-mediated mutagenesis. One gene, KLMX_70384 , is required for competitive growth at high temperature, supporting the hypothesis that evolutionary young genes could play roles in adaptation to harsh environments. KLMX_70384 is predicted to encode an 83 aa peptide, and RNA sequencing and ribo-sequencing were used to confirm transcription and translation of the gene. The precise function of KLMX_70384 remains unknown but some features are suggestive of RNA-binding activity. The gene is located in what was previously considered an intergenic region of the genome, which lacks homologues in other yeasts or in databases. Overall, the data support the hypothesis that genes that arose de novo in K. marxianus after the speciation event that separated K. marxianus and K. lactis contribute to some of its unique traits.

Published

2022

32. Stop codon readthrough contexts influence reporter expression differentially depending on the presence of an IRES.

Author

Yordanova MM, Loughran G, Atkins JF, and Baranov PV

Abstract

Background:  Previously we reported the discovery of stop codon readthrough in AMD1 mRNA followed by ribosome stalling at the end of a conserved Open Reading Frame (ORF) that we termed AMD1 . To explain the severe suppression of reporters fused to AMD1 tail we proposed a mechanism invoking ribosome queueing. In the original study, we tested this hypothesis, by placing the reporter stop codon in the context of readthrough permissive sequences in a dual reporter vector with downstream reporter expression driven by the EMCV IRES. In accordance with our hypothesis, we observed a striking disproportional reduction of upstream reporter activity in response to increased readthrough levels. Methods:  Here we employ dual luciferase assays, western blotting and RT-qPCR to explore the effects of test sequences downstream to the reporter stop codon on its expression in dual and monocistronic reporter vectors. Results:  With the dual reporter system, the disproportionate reduction of upstream reporter activity is not specific to AMD1 tail and occurs as long as the readthrough stop codon context is present at the end of the reporter's ORF. In a monocistronic vector without an IRES, the test sequences had distinct effects which were reflective of their properties e.g., AMD1 tail inhibitory effect. We further show by employing RT-qPCR that in the IRES vectors, the Fluc activity levels measured by the luciferase assay are an accurate proxy of RNA levels.  Conclusions:  While our findings provide little new information regarding the functional role of AMD1 tail, they raise caution for the use of viral IRES elements in expression vectors for studying mechanisms of mRNA translation. These findings may also be pertinent to the natural properties of readthrough permissive sequences and of IRES elements, though these require a separate investigation., Competing Interests: No competing interests were disclosed., (Copyright: © 2022 Yordanova MM et al.)

Published

2022

33. A deterministic model for non-monotone relationship between translation of upstream and downstream open reading frames.

Author

Andreev DE, Baranov PV, Milogorodskii A, and Rachinskii D

Subjects

Open Reading Frames

Abstract

Totally asymmetric simple exclusion process (TASEP) modelling was shown to offer a parsimonious explanation for the experimentally confirmed ability of a single upstream open reading frames (uORFs) to upregulate downstream translation during the integrated stress response. As revealed by numerical simulations, the model predicts that reducing the density of scanning ribosomes upstream of certain uORFs increases the flow of ribosomes downstream. To gain a better insight into the mechanism which ensures the non-monotone relation between the upstream and downstream flows, in this work, we propose a phenomenological deterministic model approximating the TASEP model of the translation process. We establish the existence of a stationary solution featuring the decreasing density along the uORF for the deterministic model. Further, we find an explicit non-monotone relation between the upstream ribosome density and the downstream flow for the stationary solution in the limit of increasing uORF length and increasingly leaky initiation. The stationary distribution of the TASEP model, the stationary solution of the deterministic model and the explicit limit are compared numerically., (© The Author(s) 2021. Published by Oxford University Press on behalf of the Institute of Mathematics and its Applications. All rights reserved.)

Published

2021

34. Stop codon readthrough contexts influence reporter expression differentially depending on the presence of an IRES.

Author

Yordanova MM, Loughran G, Atkins JF, and Baranov PV

Abstract

Background:  Previously we reported the discovery of stop codon readthrough in AMD1 mRNA followed by ribosome stalling at the end of a conserved Open Reading Frame (ORF) that we termed AMD1 . To explain the severe suppression of reporters fused to AMD1 tail we proposed a mechanism invoking ribosome queueing. To test this hypothesis, we placed the reporter stop codon in the context of readthrough permissive sequences in a dual reporter vector with downstream reporter expression driven by the EMCV IRES. In accordance with our hypothesis, we observed a striking disproportional reduction of upstream reporter activity in response to increased readthrough levels. Methods:  We employ dual luciferase assays, western blotting and RT-qPCR to explore the effects of test sequences downstream to the reporter stop codon on its expression in dual and monocistronic reporter vectors. Results:   With the dual reporter system, the disproportionate reduction of upstream reporter activity is not specific to AMD1 tail and occurs as long as the readthrough stop codon context is present at the end of the reporter's ORF. In a monocistronic vector without an IRES, the test sequences had distinct effects which were reflective of their properties e.g. AMD1 tail inhibitory effect. We further show with RT-qPCR that the EMCV IRES driven expression of a reporter is an accurate proxy of reporter RNA levels.  Conclusions:  While our findings provide little new information regarding the functional role of AMD1 tail, they raise caution for the use of viral IRES elements in expression vectors for studying mechanisms of mRNA translation. These findings may also be pertinent to the natural properties of read through permissive sequences and of IRES elements, though these require a separate investigation., Competing Interests: No competing interests were disclosed., (Copyright: © 2021 Yordanova MM et al.)

Published

2021

35. Exploring Evidence of Non-coding RNA Translation With Trips-Viz and GWIPS-Viz Browsers.

Author

Zaheed O, Kiniry SJ, Baranov PV, and Dean K

Abstract

Detection of translation in so-called non-coding RNA provides an opportunity for identification of novel bioactive peptides and microproteins. The main methods used for these purposes are ribosome profiling and mass spectrometry. A number of publicly available datasets already exist for a substantial number of different cell types grown under various conditions, and public data mining is an attractive strategy for identification of translation in non-coding RNAs. Since the analysis of publicly available data requires intensive data processing, several data resources have been created recently for exploring processed publicly available data, such as OpenProt, GWIPS-viz, and Trips-Viz. In this work we provide a detailed demonstration of how to use the latter two tools for exploring experimental evidence for translation of RNAs hitherto classified as non-coding. For this purpose, we use a set of transcripts with substantially different patterns of ribosome footprint distributions. We discuss how certain features of these patterns can be used as evidence for or against genuine translation. During our analysis we concluded that the MTLN mRNA, previously misannotated as lncRNA LINC00116 , likely encodes only a short proteoform expressed from shorter RNA transcript variants., Competing Interests: PB is a founder of Ribomaps Ltd., a company that provides ribosome profiling as a service. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Zaheed, Kiniry, Baranov and Dean.)

Published

2021

36. Trips-Viz: an environment for the analysis of public and user-generated ribosome profiling data.

Author

Kiniry SJ, Judge CE, Michel AM, and Baranov PV

Subjects

Mass Spectrometry, Open Reading Frames, Proteomics, RNA-Seq, Protein Biosynthesis, Ribosomes metabolism, Sequence Analysis, RNA methods, Software

Abstract

Trips-Viz (https://trips.ucc.ie/) is an interactive platform for the analysis and visualization of ribosome profiling (Ribo-Seq) and shotgun RNA sequencing (RNA-seq) data. This includes publicly available and user generated data, hence Trips-Viz can be classified as a database and as a server. As a database it provides access to many processed Ribo-Seq and RNA-seq data aligned to reference transcriptomes which has been expanded considerably since its inception. Here, we focus on the server functionality of Trips-viz which also has been greatly improved. Trips-viz now enables visualisation of proteomics data from a large number of processed mass spectrometry datasets. It can be used to support translation inferred from Ribo-Seq data. Users are now able to upload a custom reference transcriptome as well as data types other than Ribo-Seq/RNA-Seq. Incorporating custom data has been streamlined with RiboGalaxy (https://ribogalaxy.ucc.ie/) integration. The other new functionality is the rapid detection of translated open reading frames (ORFs) through a simple easy to use interface. The analysis of differential expression has been also improved via integration of DESeq2 and Anota2seq in addition to a number of other improvements of existing Trips-viz features., (© The Author(s) 2021. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2021

37. Editorial: Computational Epitranscriptomics: Bioinformatic Approaches for the Analysis of RNA Modifications.

Author

Dassi E, Baranov PV, and Pelizzola M

Abstract

Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Published

2020

38. Unusually efficient CUG initiation of an overlapping reading frame in POLG mRNA yields novel protein POLGARF.

Author

Loughran G, Zhdanov AV, Mikhaylova MS, Rozov FN, Datskevich PN, Kovalchuk SI, Serebryakova MV, Kiniry SJ, Michel AM, O'Connor PBF, Papkovsky DB, Atkins JF, Baranov PV, Shatsky IN, and Andreev DE

Subjects

Animals, Base Sequence, Carrier Proteins genetics, Female, Humans, Mitochondrial Proteins genetics, Open Reading Frames genetics, Pregnancy, RNA, Messenger genetics, Reading Frames genetics, Codon, Initiator genetics, DNA Polymerase gamma genetics, Phylogeny, Protein Biosynthesis genetics

Abstract

While near-cognate codons are frequently used for translation initiation in eukaryotes, their efficiencies are usually low (<10% compared to an AUG in optimal context). Here, we describe a rare case of highly efficient near-cognate initiation. A CUG triplet located in the 5' leader of POLG messenger RNA (mRNA) initiates almost as efficiently (∼60 to 70%) as an AUG in optimal context. This CUG directs translation of a conserved 260-triplet-long overlapping open reading frame (ORF), which we call POLGARF ( POLG Alternative Reading Frame). Translation of a short upstream ORF 5' of this CUG governs the ratio between POLG (the catalytic subunit of mitochondrial DNA polymerase) and POLGARF synthesized from a single POLG mRNA. Functional investigation of POLGARF suggests a role in extracellular signaling. While unprocessed POLGARF localizes to the nucleoli together with its interacting partner C1QBP, serum stimulation results in rapid cleavage and secretion of a POLGARF C-terminal fragment. Phylogenetic analysis shows that POLGARF evolved ∼160 million y ago due to a mammalian-wide interspersed repeat (MIR) transposition into the 5' leader sequence of the mammalian POLG gene, which became fixed in placental mammals. This discovery of POLGARF unveils a previously undescribed mechanism of de novo protein-coding gene evolution., Competing Interests: The authors declare no competing interest.

Published

2020

39. eIF2α controls memory consolidation via excitatory and somatostatin neurons.

Author

Sharma V, Sood R, Khlaifia A, Eslamizade MJ, Hung TY, Lou D, Asgarihafshejani A, Lalzar M, Kiniry SJ, Stokes MP, Cohen N, Nelson AJ, Abell K, Possemato AP, Gal-Ben-Ari S, Truong VT, Wang P, Yiannakas A, Saffarzadeh F, Cuello AC, Nader K, Kaufman RJ, Costa-Mattioli M, Baranov PV, Quintana A, Sanz E, Khoutorsky A, Lacaille JC, Rosenblum K, and Sonenberg N

Subjects

Animals, CA1 Region, Hippocampal cytology, CA1 Region, Hippocampal physiology, Eukaryotic Initiation Factor-2 deficiency, Eukaryotic Initiation Factor-2 genetics, Excitatory Postsynaptic Potentials, Hippocampus physiology, Long-Term Potentiation, Male, Memory, Long-Term, Mice, Mice, Inbred C57BL, Neural Inhibition, Neuronal Plasticity, Parvalbumins, Phosphorylation, Pyramidal Cells physiology, Synaptic Transmission, Eukaryotic Initiation Factor-2 metabolism, Hippocampus cytology, Memory Consolidation, Neurons metabolism, Somatostatin metabolism

Abstract

An important tenet of learning and memory is the notion of a molecular switch that promotes the formation of long-term memory 1-4 . The regulation of proteostasis is a critical and rate-limiting step in the consolidation of new memories 5-10 . One of the most effective and prevalent ways to enhance memory is by regulating the synthesis of proteins controlled by the translation initiation factor eIF2 11 . Phosphorylation of the α-subunit of eIF2 (p-eIF2α), the central component of the integrated stress response (ISR), impairs long-term memory formation in rodents and birds 11-13 . By contrast, inhibiting the ISR by mutating the eIF2α phosphorylation site, genetically 11 and pharmacologically inhibiting the ISR kinases 14-17 , or mimicking reduced p-eIF2α with the ISR inhibitor ISRIB 11 , enhances long-term memory in health and disease 18 . Here we used molecular genetics to dissect the neuronal circuits by which the ISR gates cognitive processing. We found that learning reduces eIF2α phosphorylation in hippocampal excitatory neurons and a subset of hippocampal inhibitory neurons (those that express somatostatin, but not parvalbumin). Moreover, ablation of p-eIF2α in either excitatory or somatostatin-expressing (but not parvalbumin-expressing) inhibitory neurons increased general mRNA translation, bolstered synaptic plasticity and enhanced long-term memory. Thus, eIF2α-dependent mRNA translation controls memory consolidation via autonomous mechanisms in excitatory and somatostatin-expressing inhibitory neurons.

Published

2020

40. Identification and characterization of hippuristanol-resistant mutants reveals eIF4A1 dependencies within mRNA 5' leader regions.

Author

Steinberger J, Shen L, J Kiniry S, Naineni SK, Cencic R, Amiri M, Aboushawareb SAE, Chu J, Maïga RI, Yachnin BJ, Robert F, Sonenberg N, Baranov PV, and Pelletier J

Subjects

CRISPR-Cas Systems, Cell Line, Tumor, Drug Resistance, Neoplasm drug effects, Eukaryotic Initiation Factor-4A antagonists & inhibitors, Eukaryotic Initiation Factor-4A metabolism, Humans, Leukemia, Myelogenous, Chronic, BCR-ABL Positive drug therapy, Leukemia, Myelogenous, Chronic, BCR-ABL Positive genetics, Leukemia, Myelogenous, Chronic, BCR-ABL Positive pathology, Mutation, Ribosomes genetics, Ribosomes metabolism, 5' Untranslated Regions, Drug Resistance, Neoplasm genetics, Eukaryotic Initiation Factor-4A genetics, Sterols pharmacology

Abstract

Hippuristanol (Hipp) is a natural product that selectively inhibits protein synthesis by targeting eukaryotic initiation factor (eIF) 4A, a DEAD-box RNA helicase required for ribosome recruitment to mRNA templates. Hipp binds to the carboxyl-terminal domain of eIF4A, locks it in a closed conformation, and inhibits its RNA binding. The dependencies of mRNAs for eIF4A during initiation is contingent on the degree of secondary structure within their 5' leader region. Interest in targeting eIF4A therapeutically in cancer and viral-infected settings stems from the dependencies that certain cellular (e.g. pro-oncogenic, pro-survival) and viral mRNAs show towards eIF4A. Using a CRISPR/Cas9-based variomics screen, we identify functional EIF4A1 Hipp-resistant alleles, which in turn allowed us to link the translation-inhibitory and cytotoxic properties of Hipp to eIF4A1 target engagement. Genome-wide translational profiling in the absence or presence of Hipp were undertaken and our validation studies provided insight into the structure-activity relationships of eIF4A-dependent mRNAs. We find that mRNA 5' leader length, overall secondary structure and cytosine content are defining features of Hipp-dependent mRNAs., (© The Author(s) 2020. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2020

41. Stop codon readthrough contexts influence reporter expression differentially depending on the presence of an IRES.

Author

Yordanova MM, Loughran G, Atkins JF, and Baranov PV

Abstract

Background: Previously we reported the discovery of stop codon readthrough in AMD1 mRNA followed by ribosome stalling at the end of a conserved Open Reading Frame ( AMD1 tail ). To explain the severe suppression of reporters fused to AMD1 tail we proposed a mechanism invoking ribosome queueing. To test this hypothesis, we placed the reporter stop codon in the context of readthrough permissive sequences in a dual reporter vector with downstream reporter expression governed by EMCV IRES. In accordance with our hypothesis, we observed a striking disproportional reduction of upstream reporter activity in response to increased readthrough levels. Methods: Here we employ dual luciferase assay and western blotting to explore the effects of AMD1 tail and control sequences on reporter expression in dual and monocistronic reporter vectors.       Results:  With the dual reporter system, the disproportionate reduction of upstream reporter activity is not specific to AMD1 tail and occurs as long as the readthrough stop codon context is present at the end of the reporter's ORF. The decreased reporter activity that appears to be induced by the readthrough sequence occurs only in reporters containing EMCV IRES. Monocistronic reporters with the same readthrough context sequence exhibit only a modest reduction in reporter activity. Furthermore, in monocistronic vectors, the disproportionate reduction of reporter levels greatly increased when AMD1 tail was translated as a result of readthrough. Such readthrough-mediated reduction was not observed when AMD1 tail was substituted with unrelated sequences in agreement with our original hypothesis. Conclusions: While our findings provide little new information regarding the functional role of AMD1 tail , they raise caution for the use of viral IRES elements in expression vectors for studying mechanisms of mRNA translation. These findings may also be pertinent to the natural properties of readthrough permissive sequences and of IRES elements, though these require a separate investigation., Competing Interests: No competing interests were disclosed., (Copyright: © 2020 Yordanova MM et al.)

Published

2020

42. Selection Shapes Synonymous Stop Codon Use in Mammals.

Author

Seoighe C, Kiniry SJ, Peters A, Baranov PV, and Yang H

Subjects

Animals, Humans, Phylogeny, Codon, Terminator, Evolution, Molecular, Mammals genetics, Models, Genetic

Abstract

Phylogenetic models of the evolution of protein-coding sequences can provide insights into the selection pressures that have shaped them. In the application of these models synonymous nucleotide substitutions, which do not alter the encoded amino acid, are often assumed to have limited functional consequences and used as a proxy for the neutral rate of evolution. The ratio of nonsynonymous to synonymous substitution rates is then used to categorize the selective regime that applies to the protein (e.g., purifying selection, neutral evolution, diversifying selection). Here, we extend the Muse and Gaut model of codon evolution to explore the extent of purifying selection acting on substitutions between synonymous stop codons. Using a large collection of coding sequence alignments, we estimate that a high proportion (approximately 57%) of mammalian genes are affected by selection acting on stop codon preference. This proportion varies substantially by codon, with UGA stop codons far more likely to be conserved. Genes with evidence of selection acting on synonymous stop codons have distinctive characteristics, compared to unconserved genes with the same stop codon, including longer [Formula: see text] untranslated regions (UTRs) and shorter mRNA half-life. The coding regions of these genes are also much more likely to be under strong purifying selection pressure. Our results suggest that the preference for UGA stop codons found in many multicellular eukaryotes is selective rather than mutational in origin.

Published

2020

43. Polysomes Bypass a 50-Nucleotide Coding Gap Less Efficiently Than Monosomes Due to Attenuation of a 5' mRNA Stem-Loop and Enhanced Drop-off.

Author

O'Loughlin S, Capece MC, Klimova M, Wills NM, Coakley A, Samatova E, O'Connor PBF, Loughran G, Weissman JS, Baranov PV, Rodnina MV, Puglisi JD, and Atkins JF

Subjects

Bacteriophage T4 genetics, Magnetic Resonance Imaging, Models, Molecular, Nucleic Acid Conformation, Polyribosomes chemistry, RNA, Bacterial chemistry, RNA, Bacterial genetics, Viral Proteins metabolism, Escherichia coli genetics, Polyribosomes metabolism, RNA, Messenger chemistry, RNA, Messenger genetics

Abstract

Efficient translational bypassing of a 50-nt non-coding gap in a phage T4 topoisomerase subunit gene (gp60) requires several recoding signals. Here we investigate the function of the mRNA stem-loop 5' of the take-off codon, as well as the importance of ribosome loading density on the mRNA for efficient bypassing. We show that polysomes are less efficient at mediating bypassing than monosomes, both in vitro and in vivo, due to their preventing formation of a stem-loop 5' of the take-off codon and allowing greater peptidyl-tRNA drop off. A ribosome profiling analysis of phage T4-infected Escherichia coli yielded protected mRNA fragments within the normal size range derived from ribosomes stalled at the take-off codon. However, ribosomes at this position also yielded some 53-nucleotide fragments, 16 longer. These were due to protection of the nucleotides that form the 5' stem-loop. NMR shows that the 5' stem-loop is highly dynamic. The importance of different nucleotides in the 5' stem-loop is revealed by mutagenesis studies. These data highlight the significance of the 5' stem-loop for the 50-nt bypassing and further enhance appreciation of relevance of the extent of ribosome loading for recoding., (Copyright © 2020 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2020

44. Translation initiation downstream from annotated start codons in human mRNAs coevolves with the Kozak context.

Author

Benitez-Cantos MS, Yordanova MM, O'Connor PBF, Zhdanov AV, Kovalchuk SI, Papkovsky DB, Andreev DE, and Baranov PV

Subjects

Base Sequence, Conserved Sequence, Humans, Proteins genetics, RNA, Messenger chemistry, Ribosomes metabolism, Codon, Initiator, Evolution, Molecular, Peptide Chain Initiation, Translational

Abstract

Eukaryotic translation initiation involves preinitiation ribosomal complex 5'-to-3' directional probing of mRNA for codons suitable for starting protein synthesis. The recognition of codons as starts depends on the codon identity and on its immediate nucleotide context known as Kozak context. When the context is weak (i.e., nonoptimal), leaky scanning takes place during which a fraction of ribosomes continues the mRNA probing. We explored the relationship between the context of AUG codons annotated as starts of protein-coding sequences and the next AUG codon occurrence. We found that AUG codons downstream from weak starts occur in the same frame more frequently than downstream from strong starts. We suggest that evolutionary selection on in-frame AUGs downstream from weak start codons is driven by the advantage of the reduction of wasteful out-of-frame product synthesis and also by the advantage of producing multiple proteoforms from certain mRNAs. We confirmed translation initiation downstream from weak start codons using ribosome profiling data. We also tested translation of alternative start codons in 10 specific human genes using reporter constructs. In all tested cases, initiation at downstream start codons was more productive than at the annotated ones. In most cases, optimization of Kozak context did not completely abolish downstream initiation, and in the specific example of CMPK1 mRNA, the optimized start remained unproductive. Collectively, our work reveals previously uncharacterized forces shaping the evolution of protein-coding genes and points to the plurality of translation initiation and the existence of sequence features influencing start codon selection, other than Kozak context., (© 2020 Benitez-Cantos et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2020

45. Computational methods for ribosome profiling data analysis.

Author

Kiniry SJ, Michel AM, and Baranov PV

Subjects

Data Analysis, Gene Expression Profiling, Humans, Ribosomes metabolism, Sequence Analysis, RNA, Software, Computational Biology, Ribosomes genetics

Abstract

Since the introduction of the ribosome profiling technique in 2009 its popularity has greatly increased. It is widely used for the comprehensive assessment of gene expression and for studying the mechanisms of regulation at the translational level. As the number of ribosome profiling datasets being produced continues to grow, so too does the need for reliable software that can provide answers to the biological questions it can address. This review describes the computational methods and tools that have been developed to analyze ribosome profiling data at the different stages of the process. It starts with initial routine processing of raw data and follows with more specific tasks such as the identification of translated open reading frames, differential gene expression analysis, or evaluation of local or global codon decoding rates. The review pinpoints challenges associated with each step and explains the ways in which they are currently addressed. In addition it provides a comprehensive, albeit incomplete, list of publicly available software applicable to each step, which may be a beneficial starting point to those unexposed to ribosome profiling analysis. The outline of current challenges in ribosome profiling data analysis may inspire computational biologists to search for novel, potentially superior, solutions that will improve and expand the bioinformatician's toolbox for ribosome profiling data analysis. This article is characterized under: Translation > Ribosome Structure/Function RNA Evolution and Genomics > Computational Analyses of RNA Translation > Translation Mechanisms Translation > Translation Regulation., (© 2019 Wiley Periodicals, Inc.)

Published

2020

46. In Vivo RNAi-Mediated eIF3m Knockdown Affects Ribosome Biogenesis and Transcription but Has Limited Impact on mRNA-Specific Translation.

Author

Smekalova EM, Gerashchenko MV, O'Connor PBF, Whittaker CA, Kauffman KJ, Fefilova AS, Zatsepin TS, Bogorad RL, Baranov PV, Langer R, Gladyshev VN, Anderson DG, and Koteliansky V

Abstract

Translation is an essential biological process, and dysregulation is associated with a range of diseases including ribosomopathies, diabetes, and cancer. Here, we examine translation dysregulation in vivo using RNAi to knock down the m-subunit of the translation initiation factor eIF3 in the mouse liver. Transcriptome sequencing, ribosome profiling, whole proteome, and phosphoproteome analyses show that eIF3m deficiency leads to the transcriptional response and changes in cellular translation that yield few detectable differences in the translation of particular mRNAs. The transcriptional response fell into two main categories: ribosome biogenesis (increased transcription of ribosomal proteins) and cell metabolism (alterations in lipid, amino acid, nucleic acid, and drug metabolism). Analysis of ribosome biogenesis reveals inhibition of rRNA processing, highlighting decoupling of rRNA synthesis and ribosomal protein gene transcription in response to eIF3m knockdown. Interestingly, a similar reduction in eIF3m protein levels is associated with induction of the mTOR pathway in vitro but not in vivo. Overall, this work highlights the utility of a RNAi-based in vivo approach for studying the regulation of mammalian translation in vivo., (Published by Elsevier Inc.)

Published

2020

47. Rocaglates Induce Gain-of-Function Alterations to eIF4A and eIF4F.

Author

Chu J, Zhang W, Cencic R, O'Connor PBF, Robert F, Devine WG, Selznick A, Henkel T, Merrick WC, Brown LE, Baranov PV, Porco JA Jr, and Pelletier J

Subjects

Animals, Base Sequence, Biological Assay, HEK293 Cells, Humans, Mice, NIH 3T3 Cells, Protein Biosynthesis drug effects, RNA, Messenger genetics, RNA, Messenger metabolism, Benzofurans pharmacology, Eukaryotic Initiation Factor-4A genetics, Eukaryotic Initiation Factor-4F genetics, Gain of Function Mutation genetics

Abstract

Rocaglates are a diverse family of biologically active molecules that have gained tremendous interest in recent years due to their promising activities in pre-clinical cancer studies. As a result, this family of compounds has been significantly expanded through the development of efficient synthetic schemes. However, it is unknown whether all of the members of the rocaglate family act through similar mechanisms of action. Here, we present a comprehensive study comparing the biological activities of >200 rocaglates to better understand how the presence of different chemical entities influences their biological activities. Through this, we find that most rocaglates preferentially repress the translation of mRNAs containing purine-rich 5' leaders, but certain rocaglates lack this bias in translation repression. We also uncover an aspect of rocaglate mechanism of action in which the pool of translationally active eIF4F is diminished due to the sequestration of the complex onto RNA., Competing Interests: Declaration of Interests J.C., W.Z., J.A.P., and J.P. have filed a US provisional patent application on the use of amidino- and amino-rocaglates as novel translation inhibitors and anticancer agents. All other authors declare no competing interests., (Copyright © 2020 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2020

48. Opposite Expression Patterns of Spry3 and p75NTR in Cerebellar Vermis Suggest a Male-Specific Mechanism of Autism Pathogenesis.

Author

Ning Z, Williams JM, Kumari R, Baranov PV, and Moore T

Abstract

Autism is a genetically complex neurobehavioral disorder with a population prevalence of more than 1%. Cerebellar abnormalities, including Purkinje cell deficits in the vermis, are consistently reported, and rodent models of cerebellar dysfunction exhibit features analogous to human autism. We previously analyzed the regulation and expression of the pseudoautosomal region 2 gene SPRY3 , which is adjacent to X chromosome-linked TMLHE , a known autism susceptibility gene. SPRY3 is a regulator of branching morphogenesis and is strongly expressed in Purkinje cells. We previously showed that mouse Spry3 is not expressed in cerebellar vermis lobules VI-VII and X, regions which exhibit significant Purkinje cell loss or abnormalities in autism. However, these lobules have relatively high expression of p75NTR , which encodes a neurotrophin receptor implicated in autism. We propose a mechanism whereby inappropriate SPRY3 expression in these lobules could interact with TrkB and p75NTR signaling pathways resulting in Purkinje cell pathology. We report preliminary characterization of X and Y chromosome-linked regulatory sequences upstream of SPRY3 , which are polymorphic in the general population. We suggest that an OREG-annotated region on chromosome Yq12 ∼60 kb from SPRY3 acts as a silencer of Y-linked SPRY3 expression. Deletion of a β-satellite repeat, or alterations in chromatin structure in this region due to trans -acting factors, could affect the proposed silencing function, leading to reactivation and inappropriate expression of Y-linked SPRY3 . This proposed male-specific mechanism could contribute to the male bias in autism prevalence.

Published

2019

49. Simplicity DiffExpress : A Bespoke Cloud-Based Interface for RNA-seq Differential Expression Modeling and Analysis.

Author

Palu CC, Ribeiro-Alves M, Wu Y, Lawlor B, Baranov PV, Kelly B, and Walsh P

Abstract

One of the key challenges for transcriptomics-based research is not only the processing of large data but also modeling the complexity of features that are sources of variation across samples, which is required for an accurate statistical analysis. Therefore, our goal is to foster access for wet lab researchers to bioinformatics tools, in order to enhance their ability to explore biological aspects and validate hypotheses with robust analysis. In this context, user-friendly interfaces can enable researchers to apply computational biology methods without requiring bioinformatics expertise. Such bespoke platforms can improve the quality of the findings by allowing the researcher to freely explore the data and test a new hypothesis with independence. Simplicity DiffExpress is a data-driven software platform dedicated to enabling non-bioinformaticians to take ownership of the differential expression analysis (DEA) step in a transcriptomics experiment while presenting the results in a comprehensible layout, which supports an efficient results exploration, information storage, and reproducibility. Simplicity DiffExpress' key component is the bespoke statistical model validation that guides the user through any necessary alteration in the dataset or model, tackling the challenges behind complex data analysis. The software utilizes edgeR , and it is implemented as part of the Simplicity TM platform, providing a dynamic interface, with well-organized results that are easy to navigate and are shareable. Computational biologists and bioinformaticians can also benefit from its use since the data validation is more informative than the usual DEA resources. Wet-lab collaborators can benefit from receiving their results in an organized interface. Simplicity DiffExpress is freely available for academic use, and it is cloud-based (https://simplicity.nsilico.com/dea).

Published

2019

50. Retapamulin-Assisted Ribosome Profiling Reveals the Alternative Bacterial Proteome.

Author

Meydan S, Marks J, Klepacki D, Sharma V, Baranov PV, Firth AE, Margus T, Kefi A, Vázquez-Laslop N, and Mankin AS

Subjects

Bridged Bicyclo Compounds, Heterocyclic pharmacology, Codon, Initiator genetics, Diterpenes pharmacology, Escherichia coli drug effects, Escherichia coli genetics, Gene Expression Regulation, Bacterial drug effects, Genome, Bacterial drug effects, RNA, Messenger genetics, Ribosomes drug effects, Ribosomes genetics, Genome, Bacterial genetics, Peptide Chain Initiation, Translational, Proteome genetics, Proteomics

Abstract

The use of alternative translation initiation sites enables production of more than one protein from a single gene, thereby expanding the cellular proteome. Although several such examples have been serendipitously found in bacteria, genome-wide mapping of alternative translation start sites has been unattainable. We found that the antibiotic retapamulin specifically arrests initiating ribosomes at start codons of the genes. Retapamulin-enhanced Ribo-seq analysis (Ribo-RET) not only allowed mapping of conventional initiation sites at the beginning of the genes, but strikingly, it also revealed putative internal start sites in a number of Escherichia coli genes. Experiments demonstrated that the internal start codons can be recognized by the ribosomes and direct translation initiation in vitro and in vivo. Proteins, whose synthesis is initiated at internal in-frame and out-of-frame start sites, can be functionally important and contribute to the "alternative" bacterial proteome. The internal start sites may also play regulatory roles in gene expression., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019