\documentclass[10pt,a4paper]{article} % Packages \usepackage{fancyhdr} % For header and footer \usepackage{multicol} % Allows multicols in tables \usepackage{tabularx} % Intelligent column widths \usepackage{tabulary} % Used in header and footer \usepackage{hhline} % Border under tables \usepackage{graphicx} % For images \usepackage{xcolor} % For hex colours %\usepackage[utf8x]{inputenc} % For unicode character support \usepackage[T1]{fontenc} % Without this we get weird character replacements \usepackage{colortbl} % For coloured tables \usepackage{setspace} % For line height \usepackage{lastpage} % Needed for total page number \usepackage{seqsplit} % Splits long words. %\usepackage{opensans} % Can't make this work so far. Shame. Would be lovely. \usepackage[normalem]{ulem} % For underlining links % Most of the following are not required for the majority % of cheat sheets but are needed for some symbol support. \usepackage{amsmath} % Symbols \usepackage{MnSymbol} % Symbols \usepackage{wasysym} % Symbols %\usepackage[english,german,french,spanish,italian]{babel} % Languages % Document Info \author{MariZL} \pdfinfo{ /Title (ap-bio-unit-3.pdf) /Creator (Cheatography) /Author (MariZL) /Subject (ap bio unit 3 Cheat Sheet) } % Lengths and widths \addtolength{\textwidth}{6cm} \addtolength{\textheight}{-1cm} \addtolength{\hoffset}{-3cm} \addtolength{\voffset}{-2cm} \setlength{\tabcolsep}{0.2cm} % Space between columns \setlength{\headsep}{-12pt} % Reduce space between header and content \setlength{\headheight}{85pt} % If less, LaTeX automatically increases it \renewcommand{\footrulewidth}{0pt} % Remove footer line \renewcommand{\headrulewidth}{0pt} % Remove header line \renewcommand{\seqinsert}{\ifmmode\allowbreak\else\-\fi} % Hyphens in seqsplit % This two commands together give roughly % the right line height in the tables \renewcommand{\arraystretch}{1.3} \onehalfspacing % Commands \newcommand{\SetRowColor}[1]{\noalign{\gdef\RowColorName{#1}}\rowcolor{\RowColorName}} % Shortcut for row colour \newcommand{\mymulticolumn}[3]{\multicolumn{#1}{>{\columncolor{\RowColorName}}#2}{#3}} % For coloured multi-cols \newcolumntype{x}[1]{>{\raggedright}p{#1}} % New column types for ragged-right paragraph columns \newcommand{\tn}{\tabularnewline} % Required as custom column type in use % Font and Colours \definecolor{HeadBackground}{HTML}{333333} \definecolor{FootBackground}{HTML}{666666} \definecolor{TextColor}{HTML}{333333} \definecolor{DarkBackground}{HTML}{A3A3A3} \definecolor{LightBackground}{HTML}{F3F3F3} \renewcommand{\familydefault}{\sfdefault} \color{TextColor} % Header and Footer \pagestyle{fancy} \fancyhead{} % Set header to blank \fancyfoot{} % Set footer to blank \fancyhead[L]{ \noindent \begin{multicols}{3} \begin{tabulary}{5.8cm}{C} \SetRowColor{DarkBackground} \vspace{-7pt} {\parbox{\dimexpr\textwidth-2\fboxsep\relax}{\noindent \hspace*{-6pt}\includegraphics[width=5.8cm]{/web/www.cheatography.com/public/images/cheatography_logo.pdf}} } \end{tabulary} \columnbreak \begin{tabulary}{11cm}{L} \vspace{-2pt}\large{\bf{\textcolor{DarkBackground}{\textrm{ap bio unit 3 Cheat Sheet}}}} \\ \normalsize{by \textcolor{DarkBackground}{MariZL} via \textcolor{DarkBackground}{\uline{cheatography.com/168688/cs/36595/}}} \end{tabulary} \end{multicols}} \fancyfoot[L]{ \footnotesize \noindent \begin{multicols}{3} \begin{tabulary}{5.8cm}{LL} \SetRowColor{FootBackground} \mymulticolumn{2}{p{5.377cm}}{\bf\textcolor{white}{Cheatographer}} \\ \vspace{-2pt}MariZL \\ \uline{cheatography.com/marizl} \\ \end{tabulary} \vfill \columnbreak \begin{tabulary}{5.8cm}{L} \SetRowColor{FootBackground} \mymulticolumn{1}{p{5.377cm}}{\bf\textcolor{white}{Cheat Sheet}} \\ \vspace{-2pt}Not Yet Published.\\ Updated 19th January, 2023.\\ Page {\thepage} of \pageref{LastPage}. \end{tabulary} \vfill \columnbreak \begin{tabulary}{5.8cm}{L} \SetRowColor{FootBackground} \mymulticolumn{1}{p{5.377cm}}{\bf\textcolor{white}{Sponsor}} \\ \SetRowColor{white} \vspace{-5pt} %\includegraphics[width=48px,height=48px]{dave.jpeg} Measure your website readability!\\ www.readability-score.com \end{tabulary} \end{multicols}} \begin{document} \raggedright \raggedcolumns % Set font size to small. Switch to any value % from this page to resize cheat sheet text: % www.emerson.emory.edu/services/latex/latex_169.html \footnotesize % Small font. \begin{multicols*}{3} \begin{tabularx}{5.377cm}{X} \SetRowColor{DarkBackground} \mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{Catabolic pathways yield energy}} \tn % Row 0 \SetRowColor{LightBackground} \mymulticolumn{1}{x{5.377cm}}{Catabolic pathways and production of ATP That energy can be used by certain catabolic pathways to create ATP, the chemical that drives all cellular operations. Complex molecules store molecular energy in their bonds, which is released in catabolic processes and captured so that it may be utilized to make ATP. Redox reactions: Oxidation and Reduction The principle of redox A critical fact concerning redox reactions that has not previously been mentioned is that for a redox reaction to be balanced, the total number of electrons lost must equal the total number of electrons gained. Release of energy from organic molecules that is then used for ATP production occurs through the processes of oxidation, reduction, and addition of electrons to other substances. Oxidation of organic fuel molecules during cellular respiration Oxygen is reduced to H2O and the fuel is oxidized to CO2. When glucose is oxidized, electrons are transferred to a lower energy state, releasing energy that may be used to synthesize ATP. Electrons lose potential energy along the path and energy is released. Stepwise energy harvest via NAD and the electron transport chain Energy from a fuel cannot be properly utilized for productive labor if it is discharged all at once. For instance, a car cannot travel very far if its gas tank bursts. Each step in the breakdown of glucose, other organic compounds, and cellular respiration is catalyzed by an enzyme. Electrons are taken from the glucose at crucial stages. Coenzyme NAD+ often receives the initial transfer of electrons from organic molecules. As a result of its ease in switching between the oxidized (NAD+) and reduced (NADH) states, NAD+ is a good candidate for use as an electron carrier. NAD+ serves as a respiration-related oxidizing agent as an electron acceptor. The stages of cellular respiration Glycolysis Oxidation Krebs Cycle Electron Transport Chain Glycolysis harvests chemical energy by oxidizing glucose to pyruvate 1. In the early phases, two ATP molecules are hydrolyzed to supply energy, whereas four ATP molecules are created in the latter processes.} \tn % Row Count 43 (+ 43) \hhline{>{\arrayrulecolor{DarkBackground}}-} \end{tabularx} \par\addvspace{1.3em} \begin{tabularx}{5.377cm}{X} \SetRowColor{DarkBackground} \mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{Cellular respiration}} \tn % Row 0 \SetRowColor{LightBackground} \mymulticolumn{1}{x{5.377cm}}{After pyrite is oxidized, the citric acid cycle completes the energy-yielding oxidation of organic molecules It enters the mitochondrion, where the oxidation of glucose is finished, when there is oxygen present. Before the citric acid cycle can start, the pyruvate needs to be transformed to acetyl coenzyme A (acetyl CoA), which connects glycolysis to the cycle. During oxidative phos phosphorylation, chemiosmosis couples electron transport to ATP synthesis In chemiosmosis, the energy stored in the gradient is used to make ATP. The process as a whole produces between 26 to 28 ATP. The pathway of electron transport NADH and FADH2 are freed from electrons. Hydrogen ions are moved across the membrane. When hydrogen ions pass through ATP synthase, ADP is converted to ATP. When oxygen absorbs electrons and H+ ions, water is created. The energy-coupling mechanism By definition, the term "energy coupling" refers to the idea of combining two biological reactions, in which the energy produced by one event powers the second. This synchronization or coupling of two separate biological processes or systems occurs. Proton-motive force The electrochemical potential is the force that encourages protons to travel across membranes in a downward direction. An accounting of atp production by cellular respiration. Most energy flows from glucose to NADH to the electron transport chain to proton-motive force to ATP.} \tn % Row Count 29 (+ 29) \hhline{>{\arrayrulecolor{DarkBackground}}-} \end{tabularx} \par\addvspace{1.3em} \begin{tabularx}{5.377cm}{X} \SetRowColor{DarkBackground} \mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{c cycle and phtotosythesis}} \tn % Row 0 \SetRowColor{LightBackground} \mymulticolumn{1}{x{5.377cm}}{The calvin cycle uses the chemical energy of ATP and NADPH to reduce CO2 to sugar Carbon fixation The process through which living things absorb inorganic carbon from the atmosphere and transform it into organic molecules is known as carbon fixation. Reduction In the carbon fixation stage of the Calvin cycle, carbon dioxide, an inorganic form of carbon, is converted into an organic form. In essence, carbon dioxide is reduced to produce a molecule with more energy. Regeneration of the CO2 acceptor Regeneration involves a complex series of reactions and requires ATP. The carbon dioxide acceptor in Calvin cycle is a five-carbon ketose sugar- Ribulose bisphosphate Evolution of alternative mechanics of carbon fixation in hot, madrid climates Stomata openings contract in the heat to save water. The CO2 levels in the leaves decrease as a result. Rubisco more frequently causes RuBP to be oxidized than to be carboxylated. As a result, less carbohydrates are produced. CAM plants bundle sheath cells produces a three-carbon molecule open stomata at night time. have evolved an alternative mechanism of carbon fixation to suppress the rate of photorespiration. Life depends on photosynthesis Photosynthesis is essential to most life on Earth. Plants, algae, and some types of bacteria carry out the process by capturing solar energy to create oxygen and chemical energy stored in glucose.} \tn % Row Count 28 (+ 28) \hhline{>{\arrayrulecolor{DarkBackground}}-} \end{tabularx} \par\addvspace{1.3em} % That's all folks \end{multicols*} \end{document}