Molecular Biology and Genetics / Moleküler Biyoloji ve Genetik

Permanent URI for this collectionhttps://hdl.handle.net/11147/9

Browse

Filters

2016 - 20188

Settings

Author: search.filters.author.Saçar Demirci, Müşerref Duygu

Search Results

Now showing 1 - 8 of 8
  • Research Project
    Mikro-RNA metabolik ağ kontrol analizi için veri ambarı
    (2017) Saçar Demirci, Müşerref Duygu; Acar, İlhan Erkin; Allmer, Jens
    MikroRNA'lar (miRNA) uzunluğu yaklaşık 22 nükleotid olan, tek diziden oluşan ve kodlama özelliği olmayan küçük RNA'lardır ve gen ekspresyonunu transkripsiyon sonrası seviyede hedefleri olan mRNA'ların translasyonel baskılanması ve istikrarsızlaştırılması yoluyla kontrol ederler. Çeşitli türlerde yüzlerce miRNA tespit edilmesine rağmen, miRNA?ların büyük bir miktarı hala bilinmemektedir. Bu nedenle, yeni miRNA genlerinin keşfi, miRNA aracılığıyla düzenlenen transkripsiyon sonrası düzenleme mekanizmalarının anlaşılması için önemli bir adımdır. Konvansiyonel ileri genetik tarama, klonlanmış ürünleri domine eden, yüksek miktarda sentezlenen ve/veya her yerde görülen miRNA?lara karşı yanlı bir yöntemdir. Fakat bu tarz biyolojik yöntemler nadir miRNA?ların saptanmasında etkisiz kalmaktadır. İncelenen doku ve organizmanın içinde bulunduğu gelişimsel dönemlerin farklılıkları gibi sınırlamalar, olası miRNA?ları in silico olarak bulmak için karmaşık bilgisayar programlarının geliştirilmesine yol açmıştır. Ancak bir genomdaki muhtemel miRNA?ları tahmin etme amacıyla oluşturulan bu programlar, tahminlerini deneysel olarak doğrulamak için yeterli güveni garanti edebilecek kadar hassas ya da kesin olmaktan çok uzaklardır. Bu nedenle, bu proje kapsamında miRNA analizinde daha güvenilir sonuçlar elde etmek için yeni ve daha etkili bir araç geliştirdik. Proje kapsamında geliştirdiğimiz yöntem sayesinde artık miRNA?lar organizmaların genom dizilerinden yüksek güven aralıklarında bulunabilmektedir. MiRNA?ların potansiyel hedeflerini tespit edebilmek için kullanılması planlanan algoritmaların yeterli doğruluk seviyesinde olmadığı denemeler sonucu görüldükten sonra, hedef tahminlemesi için psRNATarget gibi özelleştirilebilir tahmin araçlarının kullanımı tercih edilmiştir. Bu araçlar birlikte kullanarak farklı organizmalarda önemli miRNA etkileşimleri bulunmuştur. VANESA?nın verilerini aldığı DAWIS-M.D.?ye, tüm bilinen miRNA?lar ve bunların hedeflerini içeren bir veritabanı entegre edilmiştir. Böylece, düzenleyici yolakların görselleştirilmesi (örn: KEGG, Reactome) ve miRNA etkileşimleriyle zenginleştirilmesi mümkün hale gelmiştir. Ek olarak, tahmini yapılan miRNA?lar ve hedefleri, yerel olarak VANESA?ya eklenebilmektedir. Bu özellik, kızamık yolaklarının daha iyi anlaşılmasına ve ALS için yeni potansiyel ilaç hedeflerinin tanımlanmasına olanak sağlamıştır.
  • Article
    Citation - WoS: 7
    Citation - Scopus: 5
    A Machine Learning Approach for Microrna Precursor Prediction in Retro-Transcribing Virus Genomes
    (Informationsmanagement in der Biotechnologie e.V. (IMBio e.V.), 2016) Saçar Demirci, Müşerref Duygu; Toprak, Mustafa; Allmer, Jens
    Identification of microRNA (miRNA) precursors has seen increased efforts in recent years. The difficulty in experimental detection of pre-miRNAs increased the usage of computational approaches. Most of these approaches rely on machine learning especially classification. In order to achieve successful classification, many parameters need to be considered such as data quality, choice of classifier settings, and feature selection. For the latter one, we developed a distributed genetic algorithm on HTCondor to perform feature selection. Moreover, we employed two widely used classification algorithms libSVM and random forest with different settings to analyze the influence on the overall classification performance. In this study we analyzed 5 human retro virus genomes; Human endogenous retrovirus K113, Hepatitis B virus (strain ayw), Human T lymphotropic virus 1, Human T lymphotropic virus 2, Human immunodeficiency virus 2, and Human immunodeficiency virus 1. We then predicted pre-miRNAs by using the information from known virus and human pre-miRNAs. Our results indicate that these viruses produce novel unknown miRNA precursors which warrant further experimental validation.
  • Article
    Citation - WoS: 4
    Citation - Scopus: 4
    Improving the Quality of Positive Datasets for the Establishment of Machine Learning Models for Pre-Microrna Detection
    (Informationsmanagement in der Biotechnologie e.V. (IMBio e.V.), 2017) Saçar Demirci, Müşerref Duygu; Allmer, Jens
    MicroRNAs (miRNAs) are involved in the post-transcriptional regulation of protein abundance and thus have a great impact on the resulting phenotype. It is, therefore, no wonder that they have been implicated in many diseases ranging from virus infections to cancer. This impact on the phenotype leads to a great interest in establishing the miRNAs of an organism. Experimental methods are complicated which led to the development of computational methods for pre-miRNA detection. Such methods generally employ machine learning to establish models for the discrimination between miRNAs and other sequences. Positive training data for model establishment, for the most part, stems from miRBase, the miRNA registry. The quality of the entries in miRBase has been questioned, though. This unknown quality led to the development of filtering strategies in attempts to produce high quality positive datasets which can lead to a scarcity of positive data. To analyze the quality of filtered data we developed a machine learning model and found it is well able to establish data quality based on intrinsic measures. Additionally, we analyzed which features describing pre-miRNAs could discriminate between low and high quality data. Both models are applicable to data from miRBase and can be used for establishing high quality positive data. This will facilitate the development of better miRNA detection tools which will make the prediction of miRNAs in disease states more accurate. Finally, we applied both models to all miRBase data and provide the list of high quality hairpins.
  • Book Part
    Citation - Scopus: 9
    Differential Expression of Toxoplasma Gondii Micrornas in Murine and Human Hosts
    (Springer, 2016) Allmer, Jens; Saçar Demirci, Müşerref Duygu; Bağcı, Caner
    MicroRNAs are short RNA sequences involved in post-transcriptional gene regulation. MicroRNAs are known for a wide variety of species ranging from bacteria to plants. It has become clear that some cross-kingdom regulation is possible especially between viruses and their hosts. We hypothesized that intracellular parasites, like Toxoplasma gondii, similar to viruses would be able to modulate their host’s gene expression. We were able to show that T. gondii produces many putative pre-miRNAs which are actually transcribed. Furthermore, some of these expressed pre-miRNAs have a striking resemblance to host mature miRNAs. Previous studies indicated that T. gondii infection coincides with increased abundance of some miRNAs. Here we were able to show that many of these miRNAs have close relatives in T. gondii which may not be distinguishable using PCR. Taken together, the similarity to host miRNAs, their confirmed expression, and their upregulation during infection, it suggests that T. gondii actively transfers miRNAs to regulate its host. We conclude, that this type of cross-kingdom regulation may be possible, but that targeted analysis is necessary to consolidate our computational findings. © Springer International Publishing Switzerland 2016. All rights are reserved.
  • Article
    Citation - WoS: 11
    Citation - Scopus: 11
    The Expressed Microrna-Mrna Interactions of Toxoplasma Gondii
    (Frontiers Media S.A., 2018) Acar, İlhan Erkin; Saçar Demirci, Müşerref Duygu; Groß, Uwe; Allmer, Jens
    MicroRNAs (miRNAs) are involved in post-transcriptional modulation of gene expression and thereby have a large influence on the resulting phenotype. We have previously shown that miRNAs may be involved in the communication between Toxoplasma gondii and its hosts and further confirmed a number of proposed specific miRNAs. Yet, little is known about the internal regulation via miRNAs in T. gondii. Therefore, we predicted pre-miRNAs directly from the type II ME49 genome and filtered them. For the confident hairpins, we predicted the location of the mature miRNAs and established their target genes. To add further confidence, we evaluated whether the hairpins and their targets were co-expressed. Such co-expressed miRNA and target pairs define a functional interaction. We extracted all such functional interactions and analyzed their differential expression among strains of all three clonal lineages (RH, PLK, and CTG) and between the two stages present in the intermediate host (tachyzoites and bradyzoites). Overall, we found ~65,000 expressed interactions of which ~5,500 are differentially expressed among strains but none are significantly differentially expressed between developmental stages. Since miRNAs and target decoys can be used as therapeutics we believe that the list of interactions we provide will lead to novel approaches in the treatment of toxoplasmosis.
  • Article
    Citation - WoS: 37
    Citation - Scopus: 45
    On the Performance of Pre-Microrna Detection Algorithms
    (Nature Publishing Group, 2017) Saçar Demirci, Müşerref Duygu; Baumbach, Jan; Allmer, Jens
    MicroRNAs are crucial for post-transcriptional gene regulation, and their dysregulation has been associated with diseases like cancer and, therefore, their analysis has become popular. The experimental discovery of miRNAs is cumbersome and, thus, many computational tools have been proposed. Here we assess 13 ab initio pre-miRNA detection approaches using all relevant, published, and novel data sets while judging algorithm performance based on ten intrinsic performance measures. We present an extensible framework, izMiR, which allows for the unbiased comparison of existing algorithms, adding new ones, and combining multiple approaches into ensemble methods. In an exhaustive attempt, we condense the results of millions of computations and show that no method is clearly superior; however, we provide a guideline for biomedical researchers to select a tool. Finally, we demonstrate that combining all of the methods into one ensemble approach, for the first time, allows reliable purely computational pre-miRNA detection in large eukaryotic genomes.
  • Article
    Citation - WoS: 14
    Citation - Scopus: 13
    Delineating the Impact of Machine Learning Elements in Pre-Microrna Detection
    (PeerJ Inc., 2017) Saçar Demirci, Müşerref Duygu; Allmer, Jens
    Gene regulation modulates RNA expression via transcription factors. Posttranscriptional gene regulation in turn influences the amount of protein product through, for example, microRNAs (miRNAs). Experimental establishment of miRNAs and their effects is complicated and even futile when aiming to establish the entirety of miRNA target interactions. Therefore, computational approaches have been proposed. Many such tools rely on machine learning (ML) which involves example selection, feature extraction, model training, algorithm selection, and parameter optimization. Different ML algorithms have been used for model training on various example sets, more than 1,000 features describing pre-miRNAs have been proposed and different training and testing schemes have been used for model establishment. For pre-miRNA detection, negative examples cannot easily be established causing a problem for two class classification algorithms. There is also no consensus on what ML approach works best and, therefore, we set forth and established the impact of the different parts involved in ML on model performance. Furthermore, we established two new negative datasets and analyzed the impact of using them for training and testing. It was our aim to attach an order of importance to the parts involved in ML for pre-miRNA detection, but instead we found that all parts are intricately connected and their contributions cannot be easily untangled leading us to suggest that when attempting ML-based pre-miRNA detection many scenarios need to be explored.
  • Article
    Citation - WoS: 14
    Citation - Scopus: 12
    The Impact of Feature Selection on One and Two-Class Classification Performance for Plant Micrornas
    (PeerJ Inc., 2016) Khalifa, Waleed; Yousef, Malik; Saçar Demirci, Müşerref Duygu; Allmer, Jens
    MicroRNAs (miRNAs) are short nucleotide sequences that form a typical hairpin structure which is recognized by a complex enzyme machinery. It ultimately leads to the incorporation of 18-24 nt long mature miRNAs into RISC where they act as recognition keys to aid in regulation of target mRNAs. It is involved to determine miRNAs experimentally and, therefore, machine learning is used to complement such endeavors. The success of machine learning mostly depends on proper input data and appropriate features for parameterization of the data. Although, in general, two-class classification (TCC) is used in the field; because negative examples are hard to come by, one-class classification (OCC) has been tried for pre-miRNA detection. Since both positive and negative examples are currently somewhat limited, feature selection can prove to be vital for furthering the field of pre-miRNA detection. In this study, we compare the performance of OCC and TCC using eight feature selection methods and seven different plant species providing positive pre-miRNA examples. Feature selection was very successful for OCC where the best feature selection method achieved an average accuracy of 95.6%, thereby being ~29% better than the worst method which achieved 66.9% accuracy. While the performance is comparable to TCC, which performs up to 3% better than OCC, TCC is much less affected by feature selection and its largest performance gap is ~13% which only occurs for two of the feature selection methodologies. We conclude that feature selection is crucially important for OCC and that it can perform on par with TCC given the proper set of features.