Compare commits

..

No commits in common. "04ef28e78096ce54a381c2b95397c9599f2bab11" and "crispr" have entirely different histories.

10 changed files with 129 additions and 481 deletions

164
doc/1
View File

@ -1,164 +0,0 @@
\documentclass{report}
% Pakiety do ustawienia marginesów
\usepackage{geometry}
\geometry{
a4paper,
left=2.6cm,
right=2.6cm,
top=2.6cm,
bottom=2.6cm
}
\usepackage[
sortcites,
backend=biber,
hyperref=true,
firstinits=true,
maxbibnames=99,
]{biblatex}
\addbibresource{references.bib}
% Kodowanie i język
\usepackage[utf8]{inputenc} % Dla pdfLaTeX
\usepackage[T1]{fontenc}
\usepackage[polish]{babel}
\usepackage{listings}
% Pakiety do stylizacji
\usepackage{titlesec}
\usepackage{tocloft}
\usepackage{enumitem}
% \setlist[longenum,1]{label=\arabic*., nosep}
% \setlist[longenum,2]{label=\arabic*), nosep}
% \setlist[longenum,3]{label=\alph*., nosep}
\newlist{longenum}{enumerate}{5}
\setlist[longenum,1]{label=\arabic*.}
\setlist[longenum,2]{label=\arabic*)}
\setlist[longenum,3]{label=\alph*.}
\setlist[longenum,4]{label=\alph*)}
\setlist[longenum,5]{label=--}
% Pakiet do nagłówków i stopek
\usepackage{fancyhdr}
\pagestyle{fancy}
\fancyhf{} % Czyszczenie domyślnych nagłówków i stopek
\fancyhead[L]{Biotech, PCz}
\fancyhead[R]{M. Pabiszczak} % Lewy nagłówek
\fancyfoot[L]{Commit UUID: \texttt{\commitUUID} \\ Commit Date: \texttt{\commitDate}} % Lewa stopka - informacje linia po linii
\fancyfoot[R]{\thepage} % Prawa stopka - Numer strony
% Pakiety do dodawania znaków wodnych
\usepackage{eso-pic} % Pakiet do wstawiania znaków wodnych
\usepackage{graphicx} % Pakiet do wstawiania obrazów
\usepackage{transparent} % Pakiet do przezroczystości obrazów
% Pakiety dodatkowe
\usepackage{datetime2} % Pakiet do obsługi daty i godziny
\usepackage{ulem} % Pakiet do przekreślania tekstu
% Definicje kolorów
\usepackage{xcolor}
\definecolor{wzo}{rgb}{0.000, 0.502, 0.000} % intensywny zielony
\definecolor{szo}{rgb}{0.196, 0.803, 0.196} % limonkowy
\definecolor{pzo}{rgb}{0.235, 0.702, 0.443} % średni zielony
\definecolor{zoz}{rgb}{0.235, 0.702, 0.700} % średni zielony
\definecolor{stat}{rgb}{0.541, 0.169, 0.886} % fioletowy
\definecolor{kN}{rgb}{1.000, 0.647, 0.000} % pomarańczowy
\definecolor{uO}{rgb}{0.275, 0.514, 0.706} % niebieski
\definecolor{rO}{rgb}{0.0, 0.0, 0.5} % ciemno granatowy
\definecolor{uRODO}{rgb}{0.000, 0.502, 0.502} % teal
\definecolor{rRODO}{rgb}{0.125, 0.698, 0.667} % jasny teal
\definecolor{kor}{rgb}{1.0, 0.0, 0.0} % czerwony
\definecolor{zs}{rgb}{1.0, 0.0, 0.0} % Kolor Teal (lub dowolny wybrany kolor)
\definecolor{lightgray}{rgb}{0.70, 0.70, 0.70}
% Definicja kolorów
\definecolor{backcolour}{rgb}{0.95,0.95,0.92} % jasny szary
\definecolor{codegreen}{rgb}{0,0.6,0} % zielony
\definecolor{codegray}{rgb}{0.5,0.5,0.5} % szary
\definecolor{codepurple}{rgb}{0.58,0,0.82} % fioletowy
\definecolor{magentacolor}{rgb}{1.0, 0.0, 1.0} % magenta
% Styl dla kodu
\lstdefinestyle{mystyle}{
backgroundcolor=\color{backcolour},
commentstyle=\color{codegreen},
keywordstyle=\color{magentacolor},
numberstyle=\tiny\color{codegray},
stringstyle=\color{codepurple},
basicstyle=\ttfamily\footnotesize,
breaklines=true,
captionpos=b,
numbers=left,
numbersep=5pt,
showspaces=false,
showstringspaces=false,
showtabs=false,
tabsize=2,
extendedchars=true, % Umożliwia polskie znaki
literate={ą}{{\k{a}}}1 {ć}{{\'c}}1 {ę}{{\k{e}}}1 {ł}{{\l{}}}1 {ń}{{\'n}}1 {ó}{{\'o}}1 {ś}{{\'s}}1 {ż}{{\.z}}1 {ź}{{\'z}}1
}
% Ustawienie stylu jako domyślnego
\lstset{style=mystyle}
% Definicja nowej komendy \zs
\newcommand{\zs}{\textcolor{zs}{Zespół Szkół }}
% Wczytanie pliku z informacjami o commit
\input{commit.tex}
% Globalne ustawienie list
\setlist{leftmargin=*} % Usunięcie dodatkowego wcięcia dla wszystkich list
% Wyłączenie wcięcia akapitu
\setlength{\parindent}{0pt}
% % Definicja znaku wodnego
% \newcommand\BackgroundPic{
% \AtPageCenter{
% \makebox(0,0){
% \transparent{0.15} % Ustawienie przezroczystości na 10%
% \includegraphics[width=0.9\textwidth, keepaspectratio]{png/logo.png}
% }
% }
% }
\begin{document}
% Dodanie znaku wodnego do tła każdej strony
\AddToShipoutPictureBG*{\BackgroundPic}
% \begin{enumerate}[leftmargin=*]
\newpage
\input{modules/crispr}
\label{sec:crispr}
\newpage
\input{modules/bio}
\label{sec:bio}
% \newpage
% \input{modules/wymagania_edukacyjne} % Wczytaj zawartość pliku
% \label{sec:wymagania_edukacyjne}
% \end{enumerate}
\newpage
\printbibliography
\end{document}

View File

@ -1,4 +1,4 @@
\newcommand{\commitUUID}{98463cfa7bc8b50867b6481bc63a28b9eb0d4478}
\newcommand{\commitDate}{2024-10-22 10:31:59 +0200}
\newcommand{\commitComment}{start}
\newcommand{\commitUUID}{a933aa76f247eff8d178a6293628be451baecdf0}
\newcommand{\commitDate}{2024-10-23 18:30:31 +0200}
\newcommand{\commitComment}{init}
\newcommand{\commitTag}{}

View File

@ -6,12 +6,17 @@
\catcode `"\active
\abx@aux@cite{0}{doudnaNewFrontierGenome2014}
\abx@aux@segm{0}{0}{doudnaNewFrontierGenome2014}
\abx@aux@cite{0}{jinekProgrammableDualRNAGuidedDNA2012}
\abx@aux@segm{0}{0}{jinekProgrammableDualRNAGuidedDNA2012}
\abx@aux@cite{0}{jinekProgrammableDualRNAGuidedDNA2012}
\abx@aux@segm{0}{0}{jinekProgrammableDualRNAGuidedDNA2012}
\abx@aux@cite{0}{montecilloCRISPRCas9SystemPlant2020}
\abx@aux@segm{0}{0}{montecilloCRISPRCas9SystemPlant2020}
\abx@aux@cite{0}{doudnaNewFrontierGenome2014}
\abx@aux@segm{0}{0}{doudnaNewFrontierGenome2014}
\babel@aux{polish}{}
\newlabel{sec:crispr}{{}{1}}
\newlabel{sec:bio}{{}{3}}
\abx@aux@read@bbl@mdfivesum{nohash}
\abx@aux@read@bbl@mdfivesum{nobblfile}
\abx@aux@read@bblrerun
\abx@aux@defaultrefcontext{0}{doudnaNewFrontierGenome2014}{nty/global//global/global}
\abx@aux@defaultrefcontext{0}{jinekProgrammableDualRNAGuidedDNA2012}{nty/global//global/global}
\abx@aux@defaultrefcontext{0}{montecilloCRISPRCas9SystemPlant2020}{nty/global//global/global}
\gdef \@abspage@last{4}
\gdef \@abspage@last{3}

View File

@ -1,210 +0,0 @@
% $ biblatex auxiliary file $
% $ biblatex bbl format version 3.2 $
% Do not modify the above lines!
%
% This is an auxiliary file used by the 'biblatex' package.
% This file may safely be deleted. It will be recreated by
% biber as required.
%
\begingroup
\makeatletter
\@ifundefined{ver@biblatex.sty}
{\@latex@error
{Missing 'biblatex' package}
{The bibliography requires the 'biblatex' package.}
\aftergroup\endinput}
{}
\endgroup
\refsection{0}
\datalist[entry]{nty/global//global/global}
\entry{doudnaNewFrontierGenome2014}{article}{}
\name{author}{2}{}{%
{{hash=db6ee88c2505c20e204e8ea38dc1a7ed}{%
family={Doudna},
familyi={D\bibinitperiod},
given={Jennifer\bibnamedelima A.},
giveni={J\bibinitperiod\bibinitdelim A\bibinitperiod}}}%
{{hash=147cdad451a06b98a827e8850511922a}{%
family={Charpentier},
familyi={C\bibinitperiod},
given={Emmanuelle},
giveni={E\bibinitperiod}}}%
}
\strng{namehash}{ac39f49ff392a08abaa0153e03e063c9}
\strng{fullhash}{ac39f49ff392a08abaa0153e03e063c9}
\strng{bibnamehash}{ac39f49ff392a08abaa0153e03e063c9}
\strng{authorbibnamehash}{ac39f49ff392a08abaa0153e03e063c9}
\strng{authornamehash}{ac39f49ff392a08abaa0153e03e063c9}
\strng{authorfullhash}{ac39f49ff392a08abaa0153e03e063c9}
\field{sortinit}{D}
\field{sortinithash}{6f385f66841fb5e82009dc833c761848}
\field{labelnamesource}{author}
\field{labeltitlesource}{title}
\field{abstract}{The advent of facile genome engineering using the bacterial RNA-guided CRISPR-Cas9 system in animals and plants is transforming biology. We review the history of CRISPR (clustered regularly interspaced palindromic repeat) biology from its initial discovery through the elucidation of the CRISPR-Cas9 enzyme mechanism, which has set the stage for remarkable developments using this technology to modify, regulate, or mark genomic loci in a wide variety of cells and organisms from all three domains of life. These results highlight a new era in which genomic manipulation is no longer a bottleneck to experiments, paving the way toward fundamental discoveries in biology, with applications in all branches of biotechnology, as well as strategies for human therapeutics. , CRISPR-cas: A revolution in genome engineering The ability to engineer genomic DNA in cells and organisms easily and precisely will have major implications for basic biology research, medicine, and biotechnology. Doudna and Charpentier review the history of genome editing technologies, including oligonucleotide coupled to genome cleaving agents that rely on endogenous repair and recombination systems to complete the targeted changes, self-splicing introns, and zinc-finger nucleases and TAL effector nucleases. They then describe how clustered regularly interspaced palindromic repeats (CRISPRs), and their associated (Cas) nucleases, were discovered to constitute an adaptive immune system in bacteria. They document development of the CRISPR-Cas system into a facile genome engineering tool that is revolutionizing all areas of molecular biology. Science , this issue 10.1126/science.1258096}
\field{day}{28}
\field{issn}{0036-8075, 1095-9203}
\field{journaltitle}{Science}
\field{langid}{english}
\field{month}{11}
\field{number}{6213}
\field{shortjournal}{Science}
\field{title}{The New Frontier of Genome Engineering with {{CRISPR-Cas9}}}
\field{urlday}{22}
\field{urlmonth}{10}
\field{urlyear}{2024}
\field{volume}{346}
\field{year}{2014}
\field{dateera}{ce}
\field{urldateera}{ce}
\field{pages}{1258096}
\range{pages}{1}
\verb{doi}
\verb 10.1126/science.1258096
\endverb
\verb{urlraw}
\verb https://www.science.org/doi/10.1126/science.1258096
\endverb
\verb{url}
\verb https://www.science.org/doi/10.1126/science.1258096
\endverb
\endentry
\entry{jinekProgrammableDualRNAGuidedDNA2012}{article}{}
\name{author}{6}{}{%
{{hash=3aa57e081fa07841f82a2722cbf3fce1}{%
family={Jinek},
familyi={J\bibinitperiod},
given={Martin},
giveni={M\bibinitperiod}}}%
{{hash=33bbdf41a18c108757feb6e3e9135dbe}{%
family={Chylinski},
familyi={C\bibinitperiod},
given={Krzysztof},
giveni={K\bibinitperiod}}}%
{{hash=6354fb90208c2bc8c428afa3c4a7502b}{%
family={Fonfara},
familyi={F\bibinitperiod},
given={Ines},
giveni={I\bibinitperiod}}}%
{{hash=30d432e9ac0b22aa65c70baacd7b3d81}{%
family={Hauer},
familyi={H\bibinitperiod},
given={Michael},
giveni={M\bibinitperiod}}}%
{{hash=db6ee88c2505c20e204e8ea38dc1a7ed}{%
family={Doudna},
familyi={D\bibinitperiod},
given={Jennifer\bibnamedelima A.},
giveni={J\bibinitperiod\bibinitdelim A\bibinitperiod}}}%
{{hash=147cdad451a06b98a827e8850511922a}{%
family={Charpentier},
familyi={C\bibinitperiod},
given={Emmanuelle},
giveni={E\bibinitperiod}}}%
}
\strng{namehash}{37e33dd0cf7e17cf0a3fb2fb26848a11}
\strng{fullhash}{6b32f7927e60c50bc32a624f451e2060}
\strng{bibnamehash}{6b32f7927e60c50bc32a624f451e2060}
\strng{authorbibnamehash}{6b32f7927e60c50bc32a624f451e2060}
\strng{authornamehash}{37e33dd0cf7e17cf0a3fb2fb26848a11}
\strng{authorfullhash}{6b32f7927e60c50bc32a624f451e2060}
\field{sortinit}{J}
\field{sortinithash}{b2f54a9081ace9966a7cb9413811edb4}
\field{labelnamesource}{author}
\field{labeltitlesource}{title}
\field{abstract}{Ditching Invading DNA Bacteria and archaea protect themselves from invasive foreign nucleic acids through an RNA-mediated adaptive immune system called CRISPR (clustered regularly interspaced short palindromic repeats)/CRISPR-associated (Cas). Jinek et al. (p. 816 , published online 28 June; see the Perspective by Brouns ) found that for the type II CRISPR/Cas system, the CRISPR RNA (crRNA) as well as the trans-activating crRNA—which is known to be involved in the pre-crRNA processing—were both required to direct the Cas9 endonuclease to cleave the invading target DNA. Furthermore, engineered RNA molecules were able to program the Cas9 endonuclease to cleave specific DNA sequences to generate double-stranded DNA breaks. , A prokaryotic RNAdirected targeting system can be designed to cleave any DNA sequence. , Clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated (Cas) systems provide bacteria and archaea with adaptive immunity against viruses and plasmids by using CRISPR RNAs (crRNAs) to guide the silencing of invading nucleic acids. We show here that in a subset of these systems, the mature crRNA that is base-paired to trans-activating crRNA (tracrRNA) forms a two-RNA structure that directs the CRISPR-associated protein Cas9 to introduce double-stranded (ds) breaks in target DNA. At sites complementary to the crRNA-guide sequence, the Cas9 HNH nuclease domain cleaves the complementary strand, whereas the Cas9 RuvC-like domain cleaves the noncomplementary strand. The dual-tracrRNA:crRNA, when engineered as a single RNA chimera, also directs sequence-specific Cas9 dsDNA cleavage. Our study reveals a family of endonucleases that use dual-RNAs for site-specific DNA cleavage and highlights the potential to exploit the system for RNA-programmable genome editing.}
\field{day}{17}
\field{issn}{0036-8075, 1095-9203}
\field{journaltitle}{Science}
\field{langid}{english}
\field{month}{8}
\field{number}{6096}
\field{shortjournal}{Science}
\field{title}{A {{Programmable Dual-RNA}}{{Guided DNA Endonuclease}} in {{Adaptive Bacterial Immunity}}}
\field{urlday}{22}
\field{urlmonth}{10}
\field{urlyear}{2024}
\field{volume}{337}
\field{year}{2012}
\field{dateera}{ce}
\field{urldateera}{ce}
\field{pages}{816\bibrangedash 821}
\range{pages}{6}
\verb{doi}
\verb 10.1126/science.1225829
\endverb
\verb{file}
\verb /home/user/Zotero/storage/7LCA9MTW/Jinek et al. - 2012 - A Programmable Dual-RNAGuided DNA Endonuclease in Adaptive Bacterial Immunity.pdf
\endverb
\verb{urlraw}
\verb https://www.science.org/doi/10.1126/science.1225829
\endverb
\verb{url}
\verb https://www.science.org/doi/10.1126/science.1225829
\endverb
\endentry
\entry{montecilloCRISPRCas9SystemPlant2020}{article}{}
\name{author}{3}{}{%
{{hash=88e54511e65b4b9c405a3a373ffdd902}{%
family={Montecillo},
familyi={M\bibinitperiod},
given={Jake\bibnamedelimb Adolf\bibnamedelima V.},
giveni={J\bibinitperiod\bibinitdelim A\bibinitperiod\bibinitdelim V\bibinitperiod}}}%
{{hash=7c9f7c3643e6518c34fca0f8e364adc9}{%
family={Chu},
familyi={C\bibinitperiod},
given={Luan\bibnamedelima Luong},
giveni={L\bibinitperiod\bibinitdelim L\bibinitperiod}}}%
{{hash=cf54ec41494a92c77b00877f12d16ddf}{%
family={Bae},
familyi={B\bibinitperiod},
given={Hanhong},
giveni={H\bibinitperiod}}}%
}
\strng{namehash}{524ef06d09073b2142e7302333a0d952}
\strng{fullhash}{524ef06d09073b2142e7302333a0d952}
\strng{bibnamehash}{524ef06d09073b2142e7302333a0d952}
\strng{authorbibnamehash}{524ef06d09073b2142e7302333a0d952}
\strng{authornamehash}{524ef06d09073b2142e7302333a0d952}
\strng{authorfullhash}{524ef06d09073b2142e7302333a0d952}
\field{sortinit}{M}
\field{sortinithash}{4625c616857f13d17ce56f7d4f97d451}
\field{labelnamesource}{author}
\field{labeltitlesource}{shorttitle}
\field{abstract}{Targeted genome editing using CRISPR-Cas9 has been widely adopted as a genetic engineering tool in various biological systems. This editing technology has been in the limelight due to its simplicity and versatility compared to other previously known genome editing platforms. Several modifications of this editing system have been established for adoption in a variety of plants, as well as for its improved efficiency and portability, bringing new opportunities for the development of transgene-free improved varieties of economically important crops. This review presents an overview of CRISPR-Cas9 and its application in plant genome editing. A catalog of the current and emerging approaches for the implementation of the system in plants is also presented with details on the existing gaps and limitations. Strategies for the establishment of the CRISPR-Cas9 molecular construct such as the selection of sgRNAs, PAM compatibility, choice of promoters, vector architecture, and multiplexing approaches are emphasized. Progress in the delivery and transgene detection methods, together with optimization approaches for improved on-target efficiency are also detailed in this review. The information laid out here will provide options useful for the effective and efficient exploitation of the system for plant genome editing and will serve as a baseline for further developments of the system. Future combinations and fine-tuning of the known parameters or factors that contribute to the editing efficiency, fidelity, and portability of CRISPR-Cas9 will indeed open avenues for new technological advancements of the system for targeted gene editing in plants.}
\field{day}{17}
\field{issn}{2073-4395}
\field{journaltitle}{Agronomy}
\field{langid}{english}
\field{month}{7}
\field{number}{7}
\field{shortjournal}{Agronomy}
\field{shorttitle}{{{CRISPR-Cas9 System}} for {{Plant Genome Editing}}}
\field{title}{{{CRISPR-Cas9 System}} for {{Plant Genome Editing}}: {{Current Approaches}} and {{Emerging Developments}}}
\field{urlday}{22}
\field{urlmonth}{10}
\field{urlyear}{2024}
\field{volume}{10}
\field{year}{2020}
\field{dateera}{ce}
\field{urldateera}{ce}
\field{pages}{1033}
\range{pages}{1}
\verb{doi}
\verb 10.3390/agronomy10071033
\endverb
\verb{file}
\verb /home/user/Zotero/storage/JJPA5C9W/Montecillo et al. - 2020 - CRISPR-Cas9 System for Plant Genome Editing Current Approaches and Emerging Developments.pdf
\endverb
\verb{urlraw}
\verb https://www.mdpi.com/2073-4395/10/7/1033
\endverb
\verb{url}
\verb https://www.mdpi.com/2073-4395/10/7/1033
\endverb
\endentry
\enddatalist
\endrefsection
\endinput

View File

@ -2350,6 +2350,10 @@
</bcf:bibdata>
<bcf:section number="0">
<bcf:citekey order="1" intorder="1">doudnaNewFrontierGenome2014</bcf:citekey>
<bcf:citekey order="2" intorder="1">jinekProgrammableDualRNAGuidedDNA2012</bcf:citekey>
<bcf:citekey order="3" intorder="1">jinekProgrammableDualRNAGuidedDNA2012</bcf:citekey>
<bcf:citekey order="4" intorder="1">montecilloCRISPRCas9SystemPlant2020</bcf:citekey>
<bcf:citekey order="5" intorder="1">doudnaNewFrontierGenome2014</bcf:citekey>
</bcf:section>
<!-- SORTING TEMPLATES -->
<bcf:sortingtemplate name="nty">

View File

@ -1,14 +0,0 @@
[0] Config.pm:306> INFO - This is Biber 2.18
[1] Config.pm:309> INFO - Logfile is 'main.blg'
[163] biber:340> INFO - === Wed Oct 23, 2024, 18:48:43
[186] Biber.pm:418> INFO - Reading 'main.bcf'
[302] Biber.pm:978> INFO - Found 3 citekeys in bib section 0
[328] Biber.pm:4401> INFO - Processing section 0
[355] Biber.pm:4592> INFO - Looking for bibtex file 'references.bib' for section 0
[361] bibtex.pm:1713> INFO - LaTeX decoding ...
[376] bibtex.pm:1518> INFO - Found BibTeX data source 'references.bib'
[487] UCollate.pm:68> INFO - Overriding locale 'pl-PL' defaults 'variable = shifted' with 'variable = non-ignorable'
[488] UCollate.pm:68> INFO - Overriding locale 'pl-PL' defaults 'normalization = NFD' with 'normalization = prenormalized'
[488] Biber.pm:4221> INFO - Sorting list 'nty/global//global/global' of type 'entry' with template 'nty' and locale 'pl-PL'
[511] bbl.pm:654> INFO - Writing 'main.bbl' with encoding 'UTF-8'
[519] bbl.pm:757> INFO - Output to main.bbl

View File

@ -1,4 +1,4 @@
This is pdfTeX, Version 3.141592653-2.6-1.40.24 (TeX Live 2022/Debian) (preloaded format=pdflatex 2024.9.20) 23 OCT 2024 19:04
This is pdfTeX, Version 3.141592653-2.6-1.40.24 (TeX Live 2022/Debian) (preloaded format=pdflatex 2024.9.20) 23 OCT 2024 18:31
entering extended mode
restricted \write18 enabled.
%&-line parsing enabled.
@ -569,20 +569,20 @@ Package biblatex Warning: 'babel/polyglossia' detected but 'csquotes' missing.
(./main.aux)
\openout1 = `main.aux'.
LaTeX Font Info: Checking defaults for OML/cmm/m/it on input line 132.
LaTeX Font Info: ... okay on input line 132.
LaTeX Font Info: Checking defaults for OMS/cmsy/m/n on input line 132.
LaTeX Font Info: ... okay on input line 132.
LaTeX Font Info: Checking defaults for OT1/cmr/m/n on input line 132.
LaTeX Font Info: ... okay on input line 132.
LaTeX Font Info: Checking defaults for T1/cmr/m/n on input line 132.
LaTeX Font Info: ... okay on input line 132.
LaTeX Font Info: Checking defaults for TS1/cmr/m/n on input line 132.
LaTeX Font Info: ... okay on input line 132.
LaTeX Font Info: Checking defaults for OMX/cmex/m/n on input line 132.
LaTeX Font Info: ... okay on input line 132.
LaTeX Font Info: Checking defaults for U/cmr/m/n on input line 132.
LaTeX Font Info: ... okay on input line 132.
LaTeX Font Info: Checking defaults for OML/cmm/m/it on input line 139.
LaTeX Font Info: ... okay on input line 139.
LaTeX Font Info: Checking defaults for OMS/cmsy/m/n on input line 139.
LaTeX Font Info: ... okay on input line 139.
LaTeX Font Info: Checking defaults for OT1/cmr/m/n on input line 139.
LaTeX Font Info: ... okay on input line 139.
LaTeX Font Info: Checking defaults for T1/cmr/m/n on input line 139.
LaTeX Font Info: ... okay on input line 139.
LaTeX Font Info: Checking defaults for TS1/cmr/m/n on input line 139.
LaTeX Font Info: ... okay on input line 139.
LaTeX Font Info: Checking defaults for OMX/cmex/m/n on input line 139.
LaTeX Font Info: ... okay on input line 139.
LaTeX Font Info: Checking defaults for U/cmr/m/n on input line 139.
LaTeX Font Info: ... okay on input line 139.
*geometry* driver: auto-detecting
*geometry* detected driver: pdftex
@ -629,12 +629,12 @@ Package biblatex Info: Automatic encoding selection.
\openout3 = `main.bcf'.
Package biblatex Info: Trying to load bibliographic data...
Package biblatex Info: ... file 'main.bbl' found.
(./main.bbl)
Package biblatex Info: Reference section=0 on input line 132.
Package biblatex Info: Reference segment=0 on input line 132.
\c@lstlisting=\count415
Package biblatex Info: ... file 'main.bbl' not found.
No file main.bbl.
Package biblatex Info: Reference section=0 on input line 139.
Package biblatex Info: Reference segment=0 on input line 139.
\c@lstlisting=\count415
(/usr/share/texlive/texmf-dist/tex/context/base/mkii/supp-pdf.mkii
[Loading MPS to PDF converter (version 2006.09.02).]
\scratchcounter=\count416
@ -673,20 +673,40 @@ Underfull \hbox (badness 10000) detected at line 2
[][]
[]
LaTeX Warning: Citation 'doudnaNewFrontierGenome2014' on page 1 undefined on in
put line 7.
LaTeX Font Info: External font `cmex10' loaded for size
(Font) <7> on input line 7.
LaTeX Font Info: External font `cmex10' loaded for size
(Font) <5> on input line 7.
LaTeX Warning: Citation 'jinekProgrammableDualRNAGuidedDNA2012' on page 1 undef
ined on input line 17.
LaTeX Warning: Citation 'jinekProgrammableDualRNAGuidedDNA2012' on page 1 undef
ined on input line 23.
LaTeX Warning: Citation 'montecilloCRISPRCas9SystemPlant2020' on page 1 undefin
ed on input line 41.
LaTeX Warning: Citation 'doudnaNewFrontierGenome2014' on page 1 undefined on in
put line 43.
)
LaTeX Font Info: Trying to load font information for T1+cmtt on input line 1
43.
50.
(/usr/share/texlive/texmf-dist/tex/latex/base/t1cmtt.fd
File: t1cmtt.fd 2022/07/10 v2.5l Standard LaTeX font definitions
)
! Undefined control sequence.
\ESO@HookIIBG ->\BackgroundPic
l.143 \newpage
l.150 \newpage
?
[1{/var/lib/texmf/fonts/map/pdftex/updmap/pdftex.map}
@ -716,16 +736,14 @@ File: lstlang1.sty 2020/03/24 1.8d listings language file
(/usr/share/texlive/texmf-dist/tex/latex/listings/lstlang1.sty
File: lstlang1.sty 2020/03/24 1.8d listings language file
) [2]) [3]
[4
] (./main.aux)
LaTeX Warning: Empty bibliography on input line 161.
(./main.aux)
LaTeX Warning: There were undefined references.
LaTeX Warning: Label(s) may have changed. Rerun to get cross-references right.
Package biblatex Warning: Please (re)run Biber on the file:
(biblatex) main
(biblatex) and rerun LaTeX afterwards.
@ -735,26 +753,24 @@ Package logreq Info: Writing requests to 'main.run.xml'.
)
Here is how much of TeX's memory you used:
17887 strings out of 476091
332711 string characters out of 5794081
17843 strings out of 476091
331352 string characters out of 5794081
1989330 words of memory out of 5000000
38078 multiletter control sequences out of 15000+600000
520871 words of font info for 46 fonts, out of 8000000 for 9000
38039 multiletter control sequences out of 15000+600000
518652 words of font info for 43 fonts, out of 8000000 for 9000
1141 hyphenation exceptions out of 8191
63i,11n,102p,1948b,1634s stack positions out of 10000i,1000n,20000p,200000b,200000s
63i,11n,102p,673b,1626s stack positions out of 10000i,1000n,20000p,200000b,200000s
{/usr/share/texmf/fonts/enc/dvips/cm-super/cm-super-t1.enc}{/usr/share/texmf/
fonts/enc/dvips/cm-super/cm-super-ts1.enc}</usr/share/texmf/fonts/type1/public/
cm-super/sfbx1000.pfb></usr/share/texmf/fonts/type1/public/cm-super/sfbx1440.pf
b></usr/share/texmf/fonts/type1/public/cm-super/sfbx2488.pfb></usr/share/texmf/
fonts/type1/public/cm-super/sfcc1000.pfb></usr/share/texmf/fonts/type1/public/c
m-super/sfrm0500.pfb></usr/share/texmf/fonts/type1/public/cm-super/sfrm1000.pfb
></usr/share/texmf/fonts/type1/public/cm-super/sfti1000.pfb></usr/share/texmf/f
onts/type1/public/cm-super/sftt0800.pfb></usr/share/texmf/fonts/type1/public/cm
-super/sftt1000.pfb>
Output written on main.pdf (4 pages, 218035 bytes).
b></usr/share/texmf/fonts/type1/public/cm-super/sfrm0500.pfb></usr/share/texmf/
fonts/type1/public/cm-super/sfrm1000.pfb></usr/share/texmf/fonts/type1/public/c
m-super/sfti1000.pfb></usr/share/texmf/fonts/type1/public/cm-super/sftt0800.pfb
></usr/share/texmf/fonts/type1/public/cm-super/sftt1000.pfb>
Output written on main.pdf (3 pages, 193796 bytes).
PDF statistics:
67 PDF objects out of 1000 (max. 8388607)
41 compressed objects within 1 object stream
54 PDF objects out of 1000 (max. 8388607)
33 compressed objects within 1 object stream
0 named destinations out of 1000 (max. 500000)
1 words of extra memory for PDF output out of 10000 (max. 10000000)

Binary file not shown.

View File

@ -37,28 +37,19 @@
% \setlist[longenum,2]{label=\arabic*), nosep}
% \setlist[longenum,3]{label=\alph*., nosep}
% \newlist{longenum}{enumerate}{5}
% \setlist[longenum,1]{label=\arabic*.}
% \setlist[longenum,2]{label=\arabic*)}
% \setlist[longenum,3]{label=\alph*.}
% \setlist[longenum,4]{label=\alph*)}
% \setlist[longenum,5]{label=--}
% Definiowanie nowego typu listy 'longenum' z pięcioma poziomami numeracji
\newlist{longenum}{enumerate}{5}
\setlist[longenum,1]{label=\arabic*., left=.5em}
\setlist[longenum,2]{label=\arabic*), left=1.em}
\setlist[longenum,3]{label=\alph*., left=1.5em}
\setlist[longenum,4]{label=\alph*), left=2em}
\setlist[longenum,5]{label=--, left=3.5em}
\setlist[longenum,1]{label=\arabic*., nosep}
\setlist[longenum,2]{label=\arabic*)}
\setlist[longenum,3]{label=\alph*.}
\setlist[longenum,4]{label=\alph*)}
\setlist[longenum,5]{label=--}
% Pakiet do nagłówków i stopek
\usepackage{fancyhdr}
\pagestyle{fancy}
\fancyhf{} % Czyszczenie domyślnych nagłówków i stopek
\fancyhead[L]{Biotech, PCz}
\fancyhead[R]{M. Pabiszczak} % Lewy nagłówek
\fancyhead[R]{M. Pab.} % Lewy nagłówek
\fancyfoot[L]{Commit UUID: \texttt{\commitUUID} \\ Commit Date: \texttt{\commitDate}} % Lewa stopka - informacje linia po linii
\fancyfoot[R]{\thepage} % Prawa stopka - Numer strony
@ -74,6 +65,20 @@
% Definicje kolorów
\usepackage{xcolor}
\definecolor{wzo}{rgb}{0.000, 0.502, 0.000} % intensywny zielony
\definecolor{szo}{rgb}{0.196, 0.803, 0.196} % limonkowy
\definecolor{pzo}{rgb}{0.235, 0.702, 0.443} % średni zielony
\definecolor{zoz}{rgb}{0.235, 0.702, 0.700} % średni zielony
\definecolor{stat}{rgb}{0.541, 0.169, 0.886} % fioletowy
\definecolor{kN}{rgb}{1.000, 0.647, 0.000} % pomarańczowy
\definecolor{uO}{rgb}{0.275, 0.514, 0.706} % niebieski
\definecolor{rO}{rgb}{0.0, 0.0, 0.5} % ciemno granatowy
\definecolor{uRODO}{rgb}{0.000, 0.502, 0.502} % teal
\definecolor{rRODO}{rgb}{0.125, 0.698, 0.667} % jasny teal
\definecolor{kor}{rgb}{1.0, 0.0, 0.0} % czerwony
\definecolor{zs}{rgb}{1.0, 0.0, 0.0} % Kolor Teal (lub dowolny wybrany kolor)
\definecolor{lightgray}{rgb}{0.70, 0.70, 0.70}
@ -107,6 +112,8 @@
% Ustawienie stylu jako domyślnego
\lstset{style=mystyle}
% Definicja nowej komendy \zs
\newcommand{\zs}{\textcolor{zs}{Zespół Szkół }}
% Wczytanie pliku z informacjami o commit
\input{commit.tex}

View File

@ -7,34 +7,38 @@
}
\end{center}
\vspace{.5cm}
\begin{longenum}
\item Jak działa CRISPR?
\begin{longenum}
\item CRISPR działa w połączeniu z enzymem Cas9, który działa jako "nożyczki" tnące DNA. System działa w kilku etapach:
\begin{longenum}
\item \textbf{Rozpoznanie celu}: CRISPR używa krótkiego odcinka RNA (gRNA - guide RNA), który jest komplementarny do docelowej sekwencji DNA. RNA prowadzi enzym Cas9 do odpowiedniego miejsca w genomie.
\item \textbf{Cięcie DNA}: Po dotarciu do docelowej sekwencji, Cas9 przecina dwie nici DNA, tworząc przerwę.
\item \textbf{Naprawa DNA}: Komórki próbują naprawić uszkodzoną sekwencję DNA, co może skutkować wprowadzeniem mutacji lub dodaniem nowego genu.
\end{longenum}
\end{longenum}
\vspace{1cm}
\textbf{Główne komponenty CRISPR:}
\begin{itemize}
\item \textbf{Białko Cas9:}
\begin{itemize}
\item Enzym, który przecina DNA.
\item Rozpoznaje specyficzne miejsca w genomie.
\item Działa jak molekularne nożyczki \cite{jinekProgrammableDualRNAGuidedDNA2012}.
\end{itemize}
\item \textbf{Przewodnik RNA (gRNA):}
\begin{itemize}
\item Krótki fragment RNA.
\item Prowadzi białko Cas9 do docelowego DNA.
\item Wiąże się z wybraną sekwencją DNA \cite{jinekProgrammableDualRNAGuidedDNA2012}.
\end{itemize}
\end{itemize}
\vspace{0.5cm}
\item Zastosowania CRISPR
\begin{longenum}
\item CRISPR ma szerokie zastosowania w różnych dziedzinach:
\begin{longenum}
\item \textbf{Biotechnologia}: Edycja genów roślin, aby poprawić ich odporność na choroby, suszę, czy zwiększyć plony.
\item \textbf{Medycyna}: Potencjalne terapie genowe do leczenia chorób dziedzicznych, takich jak mukowiscydoza czy anemia sierpowata.
\item \textbf{Badania naukowe}: Badania nad funkcją genów i modelowanie chorób genetycznych.
\end{longenum}
\end{longenum}
\vspace{1cm}
\textbf{Zastosowania CRISPR:}
\begin{itemize}
\item Modyfikacja genów:
\begin{itemize}
\item Knock-out genów (wyłączenie funkcji genu).
\item Wprowadzenie mutacji.
\item Zmiana sekwencji DNA.
\end{itemize}
\end{itemize}
\vspace{0.5cm}
\item Przykład w kontekście Arabidopsis
\begin{longenum}
\item CRISPR może być użyty do wprowadzenia modyfikacji w genach Arabidopsis odpowiedzialnych za reakcje na stres suszy.
\item Można zaprojektować gRNA, aby wycelować w specyficzne geny regulujące tolerancję na suszę, a następnie użyć CRISPR do knock-out lub zmodyfikowania tych genów w celu poprawienia adaptacji roślin do warunków niedoboru wody.
\item Dzięki CRISPR można tworzyć bardziej odporne odmiany roślin, co ma znaczący wpływ na rolnictwo, zwłaszcza w obliczu zmian klimatycznych.
\end{longenum}
\end{longenum}
\vspace{1cm}
\textbf{Przykłady zastosowań:}
\begin{itemize}
\item Zwiększenie odporności roślin na suszę \cite{montecilloCRISPRCas9SystemPlant2020}.
\item Poprawa cech rolniczych zwierząt.
\item Terapia genowa u ludzi \cite{doudnaNewFrontierGenome2014}.
\end{itemize}