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Lecturer: Nadia Pisanti

NEWS

[February 12th] The classes of April 8th and April 9th will not take place: we will have to find two slots to catch them up.

[February 12th] This page has been created!

LEARNING GOALS

This course has the goal to give the student an overview of algorithmic methods that have been conceived for the analysis of genomic sequences. We will focus both on theoretical and combinatorial aspects as well as on practical issues such as whole genomes sequencing, sequences alignments, the inference of repeated patterns and of long approximated repetitions, the computation of genomic distances, and several biologically relevant problems for the management and investigation of genomic data. The exam (see below for its description) has the goal to evaluate the students understanding of the problems and the methods described in the course. Moreover, the exam is additionally meant as a chance to learn how a scientific paper is like, and how to make an oral presentation on scientific/technical topics, that is designed for a specific audience.

CONTENTS

A brief introduction to molecular biology: DNA, proteins, the cell, the synthesis of a protein.
Sequences Alignments: Dynamic Programming methods for local, global, and semi-local alignments. Computing the Longest Common Subsequences. Multiple Alignments.
Pattern Matching: Exact Pattern Matching: algorithms (Knuth-)Morris-Pratt, Boyer-Moore, Karp-Rabin with preprocessing of the pattern. Algorithm with preprocessing of the text: use of indexes. Motifs Extraction: KMR Algorithm for the extracion of exact motifs and its modifications for the inference of approximate motifs.
Finding Repetitions: Algorithms for the inference of long approximate repetitions. Filters for preprocessing.
Fragment Assembly: Genomes sequencing: some history, scientific opportunities, and practical problems. Some possible approaches for the problem of assembling sequenced fragments. Link with the “Shortest common superstring” problem, the Greedy solution. Data structures for representing and searching sequencing data.
New Generation Sequencing: Applications of High Throughput Sequencing and its algorithmic problems and challenges. Investigating data types resulting from the existing biotechnologies, and the possible data structures and algorithms for their storage and analysis.

KNOWLEDGE REQUIREMENTS

A basic course on algorithmic.

STUDY MATERIAL

SUFFIX TREE tre.pdf
PATTERN MATCHING patternmatching1.pdf e patternmatching2.pdf
FRAGMENT ASSEMBLY fragmentassembly.pdf
SEQUENCES ALIGNMENTS allineamenti.pdf
FINDING REPETITIONS: FILTERING amb.pdf
NEW GENERATION SEQUENCING illumina-assembly.pdf
OVERVIEW OF SEQUENCING TECNOLOGIES en104-pisanti.pdf
BUBBLES IN DE BRUIJN GRAPHS (slides) seminar-bubbles.pdf

EXAM ASSIGNMENT

Each student is assigned a paper that is a very recent scientific work on topics related to those of the course (tipically it is a paper accepted for publication in the proceedings of an international conference that is going to be held in a few weeks/months). The paper is part of a pool of possible papers selected by the lecturer. The paper assignment follows a brief description of all papers in the pool made by the lecturer, and a bidding phase of the students over such papers. Once the student has his/her paper assigned, the task is to prepare and make a presentation of that work that: (1) describes the results presented in that paper, (2) is suited for the actual audience (that will be the course class) as for comprehension opportunity, (3) sticks to the allowed time slot.

Students presentations usually take place all together somewhen at the end of the course. Exceptions are possible upon request for specific needs. Once the course is over, students can undergo the examination anytime during the academic year by agreeing an appointment: please, send an email to the teacher.

SEMINARS SCHEDULE

TBD

"REGISTRO DELLE LEZIONI"

bio/start.1549991137.txt.gz · Ultima modifica: 12/02/2019 alle 17:05 (5 anni fa) da Nadia Pisanti