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Image: Cancer Research UK, CC BY-SA 4.0, via Wikimedia Commons\")\n\nDNA is the molecule that carries genetic information in all living organisms. It consists of two strands of nucleotides - building blocks made up of a sugar molecule, a phosphate group and a nitrogen-containing base. Chains of these nucleotides are held together by chemical bonds and coil around each other to form a double helix shape. Each strand contains four different types of nitrogen-containing bases: adenine (A), thymine (T), guanine (G) and cytosine (C). Pairs of these bases form the rungs on the DNA ladder, with A always pairing with T and G always pairing with C. This structure allows for replication as each strand can act as a template for creating its complementary partner during cell division.\n\nThe discovery of this structure was revolutionary; it provided an explanation for how genetic information could be passed from one generation to another without being altered or corrupted.","69768f0a-a5dd-4862-a17f-ecdb107d7941",[35],{"id":36,"data":37,"type":38,"version":30,"maxContentLevel":19},"5d27fe85-1f20-4488-a804-0904218c89da",{"type":38,"reviewType":39,"spacingBehaviour":30,"clozeQuestion":40,"clozeWords":42},11,4,[41],"The four nitrogen-containing bases in the DNA ladder are: Adenine (A), thymine (T), guanine (G) and cytosine (C)",[43,44],"guanine","cytosine",{"id":46,"data":47,"type":30,"maxContentLevel":19,"version":20,"reviews":51},"b317aa77-08f7-41c8-9746-851289e4cc15",{"type":30,"title":48,"markdownContent":49,"audioMediaId":50},"How DNA replicates","![Graph](image://b0ec0e2e-2542-472c-a302-5c096793af41 \"The unwinding of a double helix structure\")\n\nDNA replication is a complex process that occurs in all living organisms. It involves the unwinding of the double helix structure and the separation of its two strands, followed by the synthesis of new complementary strands using existing nucleotides as templates. This ensures that each daughter cell has an exact copy of the original parent's genome.\n\nThe structure of DNA plays an important role in this process; it allows for precise replication with minimal errors or mutations. Enzymes such as helicase and DNA polymerase are vital to the process of DNA replication. Helicase unwinds DNA, breaking down hydrogen bonds and DNA polymerase synthesizes new strands. DNA polymerase enzymes also play a key role in proofreading newly replicated DNA sequences for any mistakes before they are passed on to future generations.","29b0348e-dbfe-4927-af68-46c4d7d17897",[52],{"id":53,"data":54,"type":38,"version":30,"maxContentLevel":19},"2e5fb119-7e72-4273-80da-2b11fc9889b9",{"type":38,"reviewType":19,"spacingBehaviour":30,"multiChoiceQuestion":55,"multiChoiceCorrect":57,"multiChoiceIncorrect":59},[56],"What enzymes are vital to the process of DNA replication?",[58],"Helicase and DNA polymerase",[60,61,62],"Lipase and Protease","Amylase and Lysozyme","Catalase and Oxidase",{"id":64,"data":65,"type":30,"maxContentLevel":19,"version":20,"reviews":69},"df8dbeab-1b91-4a1b-af61-d2b03d6331e8",{"type":30,"title":66,"markdownContent":67,"audioMediaId":68},"The role of DNA replication in cell division","DNA replication is essential for cell division, as it ensures that each daughter cell has an exact copy of the original parent's genome. This process begins with the unwinding of the double helix structure and separation of its two strands, followed by synthesis of new complementary strands using existing nucleotides as templates. Enzymes such as helicase and polymerase help speed up this process by breaking down hydrogen bonds and synthesizing new strands respectively.\n\n![Graph](image://7029c06c-f1c4-41b5-94a0-f381ac6e6356 \"DNA replication happening in a cell. Image: Jerine Victor, CC BY-SA 4.0, via Wikimedia Commons\")\n\nThe accuracy of DNA replication is remarkable; errors occur in only one out of every 10 billion base pairs copied! To ensure fidelity during this process, proofreading enzymes scan newly replicated sequences for any mistakes before they are passed on to future generations - ensuring that only accurate copies survive over time.\n\nIn addition, certain proteins called histones can also be used to regulate gene expression by controlling how tightly or loosely DNA is wound around them. By doing so, these proteins play a key role in determining which genes are expressed at any given time - allowing cells to respond quickly to changes in their environment or stimuli from other cells.","441dc930-6489-4f2a-94c7-9d04f1e93fa9",[70],{"id":71,"data":72,"type":38,"version":30,"maxContentLevel":19},"19fd6b28-c312-4cb9-8ae5-aa67804e52df",{"type":38,"reviewType":20,"spacingBehaviour":30,"binaryQuestion":73,"binaryCorrect":75,"binaryIncorrect":77},[74],"What proteins are used to regulate gene expression by controlling how tightly or loosely DNA is wound around them?",[76],"Histones",[78],"Enzymes",{"id":80,"data":81,"type":30,"maxContentLevel":19,"version":20,"reviews":85},"951c7974-2030-4c0d-8e87-3dd6ba14e567",{"type":30,"title":82,"markdownContent":83,"audioMediaId":84},"The role of DNA repair in maintaining genetic integrity","DNA repair is an essential process for maintaining genetic integrity. It involves the detection and correction of errors that occur during DNA replication, as well as fixing damage caused by environmental factors such as UV radiation or chemical mutagens. The most common type of DNA repair is base excision repair (BER), which removes damaged bases from a strand and replaces them with undamaged ones. Other types include nucleotide excision repair (NER) and mismatch repair (MMR). NER repairs bulky regions of damaged DNA, while MMR usually corrects mismatched bases that have been incorrectly paired during replication.\n\nIn addition to these processes, cells also use a process called homologous recombination to replace large sections of damaged DNA using undamaged copies as templates. This helps ensure that any mutations are not passed on to future generations of cells - allowing organisms to maintain their genetic integrity over time.","40eec657-8109-4801-a88e-8f87fc4e11e9",[86],{"id":87,"data":88,"type":38,"version":30,"maxContentLevel":19},"66b54cbe-b537-495d-b68b-904565c0a471",{"type":38,"reviewType":19,"spacingBehaviour":30,"multiChoiceQuestion":89,"multiChoiceCorrect":91,"multiChoiceIncorrect":93},[90],"What is the most common type of DNA repair?",[92],"Base excision repair (BER)",[94,95,96],"Nucleotide excision repair (NER)","Mismatch repair (MMR)","Homologous recombination",{"id":98,"data":99,"type":20,"version":20,"maxContentLevel":19,"pages":101},"c2619f77-21ad-4373-9045-a0e3e3053c5c",{"type":20,"title":100},"DNA and Protein Synthesis",[102,118,134],{"id":103,"data":104,"type":30,"maxContentLevel":19,"version":20,"reviews":108},"26b93b51-1e9c-4573-9789-8a1b140350d9",{"type":30,"title":105,"markdownContent":106,"audioMediaId":107},"The role of DNA in protein synthesis","![Graph](image://77e4a39d-0c71-41e1-824e-f961e95da8d3 \"An illustration of ribosomes translating mRNA into amino acids\")\n\nProteins are the building blocks of life, and DNA plays a crucial role in their synthesis. The genetic code stored within our DNA is used to create proteins that carry out essential functions such as cell division, metabolism, and immunity. This process begins with transcription, where an enzyme called RNA polymerase reads the sequence of nucleotides on one strand of DNA and creates a complementary messenger RNA (mRNA) molecule. This mRNA then travels to ribosomes in the cytoplasm where it is translated into amino acids - the building blocks of proteins.\n\nThe genetic code forms three-letter sequences known as codons which each correspond to a specific amino acid or stop signal. During a process called translation, these codons are read sequentially by transfer RNAs (tRNAs), which bring the corresponding amino acids to the ribosome for assembly into polypeptide chains - forming functional proteins!\n\nThis remarkable system ensures that all living organisms have access to precisely tailored proteins necessary for survival.","ba1866fa-8c02-4ac7-8576-d12b0322d3ae",[109],{"id":110,"data":111,"type":38,"version":30,"maxContentLevel":19},"f91b2aa8-3424-428c-a9ce-457d787ee9fd",{"type":38,"reviewType":20,"spacingBehaviour":30,"binaryQuestion":112,"binaryCorrect":114,"binaryIncorrect":116},[113],"What are three-letter sequences that correspond to a specific amino acid or stop signal called?",[115],"Codons",[117],"Cordons",{"id":119,"data":120,"type":30,"maxContentLevel":19,"version":30,"reviews":124},"b9462d29-4d40-4c6d-b09b-6b67d35739a3",{"type":30,"title":121,"markdownContent":122,"audioMediaId":123},"What is a gene and how it is structured?","A gene is a section of DNA that contains the instructions for making proteins. It is composed of two parts: the coding region, which contains the information needed to make a protein, and the regulatory region, which controls when and where in the organism the gene operates. Genes are typically organized into chromosomes - long strands of DNA containing hundreds or thousands of genes. Humans have 23 pairs of chromosomes, with each pair consisting of one chromosome from each parent.\n\nThe structure and function of genes can vary greatly between species; some may contain only a few hundred nucleotides while others may span millions! Humans possess around 20-25 thousand genes while fruit flies have just 14 thousand. Additionally, some organisms such as bacteria can even swap genetic material between individuals through movements known as horizontal gene transfer - allowing them to rapidly adapt to changing environments!","f1c7ed33-a2f0-40ef-b0b3-83f250d7923a",[125],{"id":126,"data":127,"type":38,"version":30,"maxContentLevel":19},"6c3935d1-63d4-4dd3-85b3-b8370b449e30",{"type":38,"reviewType":20,"spacingBehaviour":30,"binaryQuestion":128,"binaryCorrect":130,"binaryIncorrect":132},[129],"How many pairs of chromosomes do humans possess?",[131],"23",[133],"14",{"id":135,"data":136,"type":30,"maxContentLevel":19,"version":20,"reviews":140},"a0dce6ec-2611-43da-be9a-31dd1d57c105",{"type":30,"title":137,"markdownContent":138,"audioMediaId":139},"How genes function","![Graph](image://8f598bbd-5a00-4356-aa88-1ce4dc5ce044 \"Different hair colours\")\n\nGenes are the basic units of heredity, and they contain instructions for making proteins. Each gene is composed of two parts: a coding region that contains the information needed to make a protein, and a regulatory region that controls when and where in the organism this protein will be made.\n\nThe function of genes is to code for specific proteins or traits. Humans have around 20-25 thousand genes which code for different characteristics such as eye color, hair texture, height etc. In addition to coding for physical traits, genes also influence behavior - for example, people with the condition familial advanced phase sleep (FASPS) inherit a tendency to fall asleep and wake up unusually early - around 7-9 PM and 2-4 AM respectively. This and other behaviors can be passed down from generation to generation through genetic inheritance.\n\nIn bacteria, horizontal gene transfer allows them to rapidly adapt by swapping genetic material between individuals through processes like conjugation or transformation - allowing them access to new sets of instructions encoded in DNA strands from other organisms. This process helps bacteria survive changing environments by providing them with new ways of responding quickly and efficiently.","38df4ff1-02b6-472d-9140-60a31a245bc7",[141],{"id":142,"data":143,"type":38,"version":30,"maxContentLevel":19},"e4443f2b-1d92-4541-8589-5ab3e92344ca",{"type":38,"reviewType":19,"spacingBehaviour":30,"multiChoiceQuestion":144,"multiChoiceCorrect":146,"multiChoiceIncorrect":148},[145],"How do bacteria adapt to changing environments?",[147],"Horizontal gene transfer",[149,150,151],"Vertical gene transfer","Natural selection","Genetic recombination",{"id":153,"data":154,"type":20,"version":30,"maxContentLevel":19,"pages":156},"8363b966-e9a0-4ed2-8562-1c5e5a7201d0",{"type":20,"title":155},"Chromosomes and Genes",[157,172,188],{"id":158,"data":159,"type":30,"maxContentLevel":19,"version":30,"reviews":163},"160f7c36-aba6-4e0c-8f1f-6f0ce0ec5c73",{"type":30,"title":160,"markdownContent":161,"audioMediaId":162},"The structure of chromosomes","\n ![Graph](image://ca7adedf-f7b3-4621-93d9-d2595bc6357c \"The arrangement of chromosomes\")\n\nChromosomes are the structures that carry genetic information in cells. They consist of long strands of DNA tightly coiled around proteins called histones, forming a structure known as chromatin. Humans have 23 pairs of chromosomes, with each pair containing one chromosome from each parent. Chromosomes come in different shapes and sizes; for example, human chromosome 1 is the largest at 249 million base pairs while mouse chromosome 19 is only 16 million base pairs long!\n","6c1838b8-946c-447f-b9b4-ff307bdb02d3",[164],{"id":165,"data":166,"type":38,"version":30,"maxContentLevel":19},"c3462d5f-fe29-4f0a-824b-0522a8625448",{"type":38,"reviewType":20,"spacingBehaviour":30,"binaryQuestion":167,"binaryCorrect":169,"binaryIncorrect":170},[168],"How many pairs of chromosomes do humans have?",[131],[171],"11",{"id":173,"data":174,"type":30,"maxContentLevel":19,"version":30,"reviews":178},"c81a02ff-80c4-4047-bb12-82df4df04e05",{"type":30,"title":175,"markdownContent":176,"audioMediaId":177},"How human chromosomes are organized","The arrangement of genes on chromosomes also plays an important role in evolution and population genetics. By comparing the gene sequences between species, scientists can identify which genes have been conserved over time and which ones have changed or mutated - providing insight into how organisms adapt to their environment. \n\nFor instance, by studying the sequence of genes on human chromosome 2 it was discovered that humans share 96% of their DNA with chimpanzees - indicating a common ancestor between them! Additionally, certain sections found on both human and fruit fly chromosomes date back hundreds of millions of years ago!","28ccd3ac-ce95-4b1f-8b98-54876402870a",[179],{"id":180,"data":181,"type":38,"version":30,"maxContentLevel":19},"16a7525c-84f3-4ad7-890b-3d947428f5bf",{"type":38,"reviewType":20,"spacingBehaviour":30,"binaryQuestion":182,"binaryCorrect":184,"binaryIncorrect":186},[183],"How much of human DNA is shared with chimpanzees?",[185],"96%",[187],"98%",{"id":189,"data":190,"type":30,"maxContentLevel":19,"version":30,"reviews":194},"c234e47a-7f15-4e0e-a028-b26944ab706b",{"type":30,"title":191,"markdownContent":192,"audioMediaId":193},"The relationship between DNA, genes, and chromosomes","\n\n ![Graph](image://2b1e3800-c357-4665-9d9e-2ffdc8348297 \"Mice in a laboratory experiment. Image: Galina Fomina, CC BY 4.0, via Wikimedia Commons\")\n\nUnderstanding the relationship between DNA, genes, and chromosomes is essential to understanding genetics. DNA is the genetic material that carries all of the information necessary for an organism’s development and functioning. Genes are sections of this DNA that code for specific traits or proteins, while chromosomes are structures made up of tightly coiled strands of DNA held together by histones. \n\nHumans have 23 pairs of chromosomes, each containing hundreds or thousands of genes. 22 pairs of these chromosomes, known as autosomes, look the same in males and females. The 23rd pair, known as the sex chromosomes differ between males, who carry an x and a y chromosome and females, who carry two x chromosomes.\n\nGene expression, which refers to genes being switched on to make protein, changes in response to a range of factors, including developmental triggers and the external environment. Environmental factors can affect gene expression without changing the underlying sequence itself - a phenomenon known as epigenetics. For example, epigenetic changes as a result of smoking cigarettes might increase the likelihood of lung cancer.\n\n\n\n","d51dc09c-ed00-413e-b9a9-9bc76ad65baa",[195],{"id":196,"data":197,"type":38,"version":30,"maxContentLevel":19},"c7d2353b-2069-4deb-b574-7a2726950d4c",{"type":38,"reviewType":20,"spacingBehaviour":30,"binaryQuestion":198,"binaryCorrect":200,"binaryIncorrect":202},[199],"What is the phenomenon known as when environmental factors can affect gene expression without changing the underlying sequence itself?",[201],"Epigenetics",[203],"Genetics",[205,311,390],{"id":23,"data":24,"type":20,"version":20,"maxContentLevel":19,"pages":206},[207,239,264,294],{"id":28,"data":29,"type":30,"maxContentLevel":19,"version":20,"reviews":34,"parsed":208},{"data":209,"body":211,"toc":237},{"title":210,"description":210},"",{"type":212,"children":213},"root",[214,226,232],{"type":215,"tag":216,"props":217,"children":218},"element","p",{},[219],{"type":215,"tag":220,"props":221,"children":225},"img",{"alt":222,"src":223,"title":224},"Graph","image://2a5b57f3-b754-434d-98d4-8a9109f37dbf","A double helix structure showing base pairs. Image: Cancer Research UK, CC BY-SA 4.0, via Wikimedia Commons",[],{"type":215,"tag":216,"props":227,"children":228},{},[229],{"type":230,"value":231},"text","DNA is the molecule that carries genetic information in all living organisms. It consists of two strands of nucleotides - building blocks made up of a sugar molecule, a phosphate group and a nitrogen-containing base. Chains of these nucleotides are held together by chemical bonds and coil around each other to form a double helix shape. Each strand contains four different types of nitrogen-containing bases: adenine (A), thymine (T), guanine (G) and cytosine (C). Pairs of these bases form the rungs on the DNA ladder, with A always pairing with T and G always pairing with C. This structure allows for replication as each strand can act as a template for creating its complementary partner during cell division.",{"type":215,"tag":216,"props":233,"children":234},{},[235],{"type":230,"value":236},"The discovery of this structure was revolutionary; it provided an explanation for how genetic information could be passed from one generation to another without being altered or corrupted.",{"title":210,"searchDepth":20,"depth":20,"links":238},[],{"id":46,"data":47,"type":30,"maxContentLevel":19,"version":20,"reviews":51,"parsed":240},{"data":241,"body":242,"toc":262},{"title":210,"description":210},{"type":212,"children":243},[244,252,257],{"type":215,"tag":216,"props":245,"children":246},{},[247],{"type":215,"tag":220,"props":248,"children":251},{"alt":222,"src":249,"title":250},"image://b0ec0e2e-2542-472c-a302-5c096793af41","The unwinding of a double helix structure",[],{"type":215,"tag":216,"props":253,"children":254},{},[255],{"type":230,"value":256},"DNA replication is a complex process that occurs in all living organisms. It involves the unwinding of the double helix structure and the separation of its two strands, followed by the synthesis of new complementary strands using existing nucleotides as templates. This ensures that each daughter cell has an exact copy of the original parent's genome.",{"type":215,"tag":216,"props":258,"children":259},{},[260],{"type":230,"value":261},"The structure of DNA plays an important role in this process; it allows for precise replication with minimal errors or mutations. Enzymes such as helicase and DNA polymerase are vital to the process of DNA replication. Helicase unwinds DNA, breaking down hydrogen bonds and DNA polymerase synthesizes new strands. DNA polymerase enzymes also play a key role in proofreading newly replicated DNA sequences for any mistakes before they are passed on to future generations.",{"title":210,"searchDepth":20,"depth":20,"links":263},[],{"id":64,"data":65,"type":30,"maxContentLevel":19,"version":20,"reviews":69,"parsed":265},{"data":266,"body":268,"toc":292},{"title":210,"description":267},"DNA replication is essential for cell division, as it ensures that each daughter cell has an exact copy of the original parent's genome. This process begins with the unwinding of the double helix structure and separation of its two strands, followed by synthesis of new complementary strands using existing nucleotides as templates. Enzymes such as helicase and polymerase help speed up this process by breaking down hydrogen bonds and synthesizing new strands respectively.",{"type":212,"children":269},[270,274,282,287],{"type":215,"tag":216,"props":271,"children":272},{},[273],{"type":230,"value":267},{"type":215,"tag":216,"props":275,"children":276},{},[277],{"type":215,"tag":220,"props":278,"children":281},{"alt":222,"src":279,"title":280},"image://7029c06c-f1c4-41b5-94a0-f381ac6e6356","DNA replication happening in a cell. Image: Jerine Victor, CC BY-SA 4.0, via Wikimedia Commons",[],{"type":215,"tag":216,"props":283,"children":284},{},[285],{"type":230,"value":286},"The accuracy of DNA replication is remarkable; errors occur in only one out of every 10 billion base pairs copied! To ensure fidelity during this process, proofreading enzymes scan newly replicated sequences for any mistakes before they are passed on to future generations - ensuring that only accurate copies survive over time.",{"type":215,"tag":216,"props":288,"children":289},{},[290],{"type":230,"value":291},"In addition, certain proteins called histones can also be used to regulate gene expression by controlling how tightly or loosely DNA is wound around them. By doing so, these proteins play a key role in determining which genes are expressed at any given time - allowing cells to respond quickly to changes in their environment or stimuli from other cells.",{"title":210,"searchDepth":20,"depth":20,"links":293},[],{"id":80,"data":81,"type":30,"maxContentLevel":19,"version":20,"reviews":85,"parsed":295},{"data":296,"body":298,"toc":309},{"title":210,"description":297},"DNA repair is an essential process for maintaining genetic integrity. It involves the detection and correction of errors that occur during DNA replication, as well as fixing damage caused by environmental factors such as UV radiation or chemical mutagens. The most common type of DNA repair is base excision repair (BER), which removes damaged bases from a strand and replaces them with undamaged ones. Other types include nucleotide excision repair (NER) and mismatch repair (MMR). NER repairs bulky regions of damaged DNA, while MMR usually corrects mismatched bases that have been incorrectly paired during replication.",{"type":212,"children":299},[300,304],{"type":215,"tag":216,"props":301,"children":302},{},[303],{"type":230,"value":297},{"type":215,"tag":216,"props":305,"children":306},{},[307],{"type":230,"value":308},"In addition to these processes, cells also use a process called homologous recombination to replace large sections of damaged DNA using undamaged copies as templates. This helps ensure that any mutations are not passed on to future generations of cells - allowing organisms to maintain their genetic integrity over time.",{"title":210,"searchDepth":20,"depth":20,"links":310},[],{"id":98,"data":99,"type":20,"version":20,"maxContentLevel":19,"pages":312},[313,343,360],{"id":103,"data":104,"type":30,"maxContentLevel":19,"version":20,"reviews":108,"parsed":314},{"data":315,"body":316,"toc":341},{"title":210,"description":210},{"type":212,"children":317},[318,326,331,336],{"type":215,"tag":216,"props":319,"children":320},{},[321],{"type":215,"tag":220,"props":322,"children":325},{"alt":222,"src":323,"title":324},"image://77e4a39d-0c71-41e1-824e-f961e95da8d3","An illustration of ribosomes translating mRNA into amino acids",[],{"type":215,"tag":216,"props":327,"children":328},{},[329],{"type":230,"value":330},"Proteins are the building blocks of life, and DNA plays a crucial role in their synthesis. The genetic code stored within our DNA is used to create proteins that carry out essential functions such as cell division, metabolism, and immunity. This process begins with transcription, where an enzyme called RNA polymerase reads the sequence of nucleotides on one strand of DNA and creates a complementary messenger RNA (mRNA) molecule. This mRNA then travels to ribosomes in the cytoplasm where it is translated into amino acids - the building blocks of proteins.",{"type":215,"tag":216,"props":332,"children":333},{},[334],{"type":230,"value":335},"The genetic code forms three-letter sequences known as codons which each correspond to a specific amino acid or stop signal. During a process called translation, these codons are read sequentially by transfer RNAs (tRNAs), which bring the corresponding amino acids to the ribosome for assembly into polypeptide chains - forming functional proteins!",{"type":215,"tag":216,"props":337,"children":338},{},[339],{"type":230,"value":340},"This remarkable system ensures that all living organisms have access to precisely tailored proteins necessary for survival.",{"title":210,"searchDepth":20,"depth":20,"links":342},[],{"id":119,"data":120,"type":30,"maxContentLevel":19,"version":30,"reviews":124,"parsed":344},{"data":345,"body":347,"toc":358},{"title":210,"description":346},"A gene is a section of DNA that contains the instructions for making proteins. It is composed of two parts: the coding region, which contains the information needed to make a protein, and the regulatory region, which controls when and where in the organism the gene operates. Genes are typically organized into chromosomes - long strands of DNA containing hundreds or thousands of genes. Humans have 23 pairs of chromosomes, with each pair consisting of one chromosome from each parent.",{"type":212,"children":348},[349,353],{"type":215,"tag":216,"props":350,"children":351},{},[352],{"type":230,"value":346},{"type":215,"tag":216,"props":354,"children":355},{},[356],{"type":230,"value":357},"The structure and function of genes can vary greatly between species; some may contain only a few hundred nucleotides while others may span millions! Humans possess around 20-25 thousand genes while fruit flies have just 14 thousand. Additionally, some organisms such as bacteria can even swap genetic material between individuals through movements known as horizontal gene transfer - allowing them to rapidly adapt to changing environments!",{"title":210,"searchDepth":20,"depth":20,"links":359},[],{"id":135,"data":136,"type":30,"maxContentLevel":19,"version":20,"reviews":140,"parsed":361},{"data":362,"body":363,"toc":388},{"title":210,"description":210},{"type":212,"children":364},[365,373,378,383],{"type":215,"tag":216,"props":366,"children":367},{},[368],{"type":215,"tag":220,"props":369,"children":372},{"alt":222,"src":370,"title":371},"image://8f598bbd-5a00-4356-aa88-1ce4dc5ce044","Different hair colours",[],{"type":215,"tag":216,"props":374,"children":375},{},[376],{"type":230,"value":377},"Genes are the basic units of heredity, and they contain instructions for making proteins. Each gene is composed of two parts: a coding region that contains the information needed to make a protein, and a regulatory region that controls when and where in the organism this protein will be made.",{"type":215,"tag":216,"props":379,"children":380},{},[381],{"type":230,"value":382},"The function of genes is to code for specific proteins or traits. Humans have around 20-25 thousand genes which code for different characteristics such as eye color, hair texture, height etc. In addition to coding for physical traits, genes also influence behavior - for example, people with the condition familial advanced phase sleep (FASPS) inherit a tendency to fall asleep and wake up unusually early - around 7-9 PM and 2-4 AM respectively. This and other behaviors can be passed down from generation to generation through genetic inheritance.",{"type":215,"tag":216,"props":384,"children":385},{},[386],{"type":230,"value":387},"In bacteria, horizontal gene transfer allows them to rapidly adapt by swapping genetic material between individuals through processes like conjugation or transformation - allowing them access to new sets of instructions encoded in DNA strands from other organisms. This process helps bacteria survive changing environments by providing them with new ways of responding quickly and efficiently.",{"title":210,"searchDepth":20,"depth":20,"links":389},[],{"id":153,"data":154,"type":20,"version":30,"maxContentLevel":19,"pages":391},[392,412,429],{"id":158,"data":159,"type":30,"maxContentLevel":19,"version":30,"reviews":163,"parsed":393},{"data":394,"body":395,"toc":410},{"title":210,"description":210},{"type":212,"children":396},[397,405],{"type":215,"tag":216,"props":398,"children":399},{},[400],{"type":215,"tag":220,"props":401,"children":404},{"alt":222,"src":402,"title":403},"image://ca7adedf-f7b3-4621-93d9-d2595bc6357c","The arrangement of chromosomes",[],{"type":215,"tag":216,"props":406,"children":407},{},[408],{"type":230,"value":409},"Chromosomes are the structures that carry genetic information in cells. They consist of long strands of DNA tightly coiled around proteins called histones, forming a structure known as chromatin. Humans have 23 pairs of chromosomes, with each pair containing one chromosome from each parent. Chromosomes come in different shapes and sizes; for example, human chromosome 1 is the largest at 249 million base pairs while mouse chromosome 19 is only 16 million base pairs long!",{"title":210,"searchDepth":20,"depth":20,"links":411},[],{"id":173,"data":174,"type":30,"maxContentLevel":19,"version":30,"reviews":178,"parsed":413},{"data":414,"body":416,"toc":427},{"title":210,"description":415},"The arrangement of genes on chromosomes also plays an important role in evolution and population genetics. By comparing the gene sequences between species, scientists can identify which genes have been conserved over time and which ones have changed or mutated - providing insight into how organisms adapt to their environment.",{"type":212,"children":417},[418,422],{"type":215,"tag":216,"props":419,"children":420},{},[421],{"type":230,"value":415},{"type":215,"tag":216,"props":423,"children":424},{},[425],{"type":230,"value":426},"For instance, by studying the sequence of genes on human chromosome 2 it was discovered that humans share 96% of their DNA with chimpanzees - indicating a common ancestor between them! Additionally, certain sections found on both human and fruit fly chromosomes date back hundreds of millions of years ago!",{"title":210,"searchDepth":20,"depth":20,"links":428},[],{"id":189,"data":190,"type":30,"maxContentLevel":19,"version":30,"reviews":194,"parsed":430},{"data":431,"body":432,"toc":457},{"title":210,"description":210},{"type":212,"children":433},[434,442,447,452],{"type":215,"tag":216,"props":435,"children":436},{},[437],{"type":215,"tag":220,"props":438,"children":441},{"alt":222,"src":439,"title":440},"image://2b1e3800-c357-4665-9d9e-2ffdc8348297","Mice in a laboratory experiment. Image: Galina Fomina, CC BY 4.0, via Wikimedia Commons",[],{"type":215,"tag":216,"props":443,"children":444},{},[445],{"type":230,"value":446},"Understanding the relationship between DNA, genes, and chromosomes is essential to understanding genetics. DNA is the genetic material that carries all of the information necessary for an organism’s development and functioning. Genes are sections of this DNA that code for specific traits or proteins, while chromosomes are structures made up of tightly coiled strands of DNA held together by histones.",{"type":215,"tag":216,"props":448,"children":449},{},[450],{"type":230,"value":451},"Humans have 23 pairs of chromosomes, each containing hundreds or thousands of genes. 22 pairs of these chromosomes, known as autosomes, look the same in males and females. The 23rd pair, known as the sex chromosomes differ between males, who carry an x and a y chromosome and females, who carry two x chromosomes.",{"type":215,"tag":216,"props":453,"children":454},{},[455],{"type":230,"value":456},"Gene expression, which refers to genes being switched on to make protein, changes in response to a range of factors, including developmental triggers and the external environment. Environmental factors can affect gene expression without changing the underlying sequence itself - a phenomenon known as epigenetics. For example, epigenetic changes as a result of smoking cigarettes might increase the likelihood of lung cancer.",{"title":210,"searchDepth":20,"depth":20,"links":458},[],{"left":4,"top":4,"width":460,"height":460,"rotate":4,"vFlip":6,"hFlip":6,"body":461},24,"\u003Cpath fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"2\" d=\"m9 18l6-6l-6-6\"/>",{"left":4,"top":4,"width":460,"height":460,"rotate":4,"vFlip":6,"hFlip":6,"body":463},"\u003Cpath fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"2\" d=\"M4 5h16M4 12h16M4 19h16\"/>",1778228324327]