#Genetic Code

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#Genetic Code Reel by @biotecnologia_descomplicada - EPIGENÉTICA: O Controle Sobre os Genes Além do DNA A epigenética é o estudo de alterações no funcionamento dos genes que não envolvem mudanças na seq
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@biotecnologia_descomplicada
EPIGENÉTICA: O Controle Sobre os Genes Além do DNA A epigenética é o estudo de alterações no funcionamento dos genes que não envolvem mudanças na sequência do DNA. Enquanto o DNA carrega as informações genéticas que herdamos de nossos pais, a epigenética determina como, quando e onde esses genes serão ativados ou desativados. Em outras palavras, é como se o DNA fosse o "hardware" e a epigenética o "software" que controla como ele é usado. Como a epigenética funciona? A epigenética opera por meio de mecanismos que regulam a expressão gênica. Os principais processos incluem: 1. Metilação do DNA: Pequenos grupos químicos chamados grupos metil (CH3) são adicionados ao DNA, geralmente desligando os genes. É como colocar uma marca que impede que o gene seja lido. 2. Modificação das histonas: O DNA é enrolado em proteínas chamadas histonas. Alterações químicas nessas proteínas podem tornar o DNA mais ou menos acessível para leitura pelos maquinários celulares. 3. RNA não codificante: Moléculas de RNA podem interferir na produção de proteínas, regulando a expressão de genes. Fatores que influenciam a epigenética: A epigenética é altamente sensível ao ambiente. Fatores como alimentação, estresse, exposição a toxinas, exercício físico e até o envelhecimento podem modificar o padrão epigenético. Essas alterações, em alguns casos, podem ser transmitidas para as próximas gerações. A epigenética e a saúde: Alterações epigenéticas estão associadas a diversas condições de saúde, como câncer, doenças cardíacas, diabetes e transtornos psiquiátricos. Por exemplo, padrões anormais de metilação do DNA podem desativar genes supressores de tumores, contribuindo para o desenvolvimento do câncer. Epigenética no cotidiano: Um dos conceitos mais fascinantes da epigenética é que nosso estilo de vida pode moldar nossa saúde e a de nossos descendentes. Por isso, adotar uma alimentação balanceada, evitar o estresse crônico e praticar exercícios pode impactar positivamente nossa expressão genética. Continua nos comentarios 👇🏼.
#Genetic Code Reel by @biologyscienc - The transcription and translation of genetic information are the two main steps of gene expression. During transcription, the enzyme RNA polymerase co
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@biologyscienc
The transcription and translation of genetic information are the two main steps of gene expression. During transcription, the enzyme RNA polymerase copies a gene’s DNA sequence into messenger RNA (mRNA) by pairing complementary RNA nucleotides with the DNA template strand, replacing thymine (T) with uracil (U). Next, during translation, the mRNA travels to the ribosome, where transfer RNA (tRNA) molecules read the mRNA codons and bring the corresponding amino acids. These amino acids are joined together in sequence to form a polypeptide chain, which folds into a functional protein that carries out cellular functions. 🎥 by yourgenome (yt) #cellbiologylab #cellbiology #molecularbiology #medicalstudent #biology #immunologystudent
#Genetic Code Reel by @anatolyze - 🦠 From DNA to Protein: A 3D ANIMATION! This animation visualizes one of the most fundamental processes of life: how information stored in DNA is use
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@anatolyze
🦠 From DNA to Protein: A 3D ANIMATION! This animation visualizes one of the most fundamental processes of life: how information stored in DNA is used to build proteins. The video begins inside the cell nucleus, where DNA is stored. A specific gene is selected and copied into messenger RNA (mRNA). This step shows how the DNA code is read and rewritten into a form the cell can use — without the DNA itself ever leaving the nucleus. Once formed, the mRNA strand exits the nucleus and moves into the surrounding cytoplasm. Here, it encounters a ribosome, the molecular machine responsible for protein production. The ribosome reads the mRNA sequence step by step. As it moves along the strand, transfer RNA (tRNA) molecules bring in the correct amino acids based on the genetic code. These amino acids are then linked together in the exact order dictated by the mRNA. As the chain grows, it begins to fold into a specific three-dimensional structure, forming a functional protein. This final shape determines what the protein will do — whether it supports cell structure, enables chemical reactions, or carries signals. Every movement shown in this animation represents interactions happening constantly inside living cells. This is how genetic information becomes physical matter, turning code into function and instructions into life. What part of this process would you like to see broken down next? 🧬👇 FOLLOW ANATOLYZE FOR MORE! Hashtags #DNA #ProteinSynthesis #MolecularBiology #CellBiology #Ribosome #mRNA #tRNA #Genetics #ScienceAnimation #Biochemistry #STEM
#Genetic Code Reel by @biotechnologyguy (verified account) - 💬 Comment "DNA" to get notes on DNA Replication! 🧬✨ Ready? Let's make replication feel like a fun mission, not a boring chapter 😄👇 🧠 DNA Replic
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@biotechnologyguy
💬 Comment “DNA” to get notes on DNA Replication! 🧬✨ Ready? Let’s make replication feel like a fun mission, not a boring chapter 😄👇 🧠 DNA Replication = The cell’s “copy & backup” before division ✅ So both new cells get the same genetic instructions 📚🧬 ⸻ 🚪 1) Start Point: Origin of Replication 📍 Replication begins at specific spots called origins → DNA opens up from here 🔓 🌀 2) Unzipping the Helix 🧩 Helicase = the zipper opener 😮‍💨➡️ It breaks hydrogen bonds & creates a replication fork 🍴 🛡️ SSB Proteins hold strands apart like clips 🧷 so they don’t re-join! ⸻ 🧱 3) Primer Setup (Because polymerase needs a start!) 🛠️ Primase lays down a tiny RNA primer 🧷 Think of it as the “start button” ▶️ ⸻ 🏗️ 4) Building New DNA (5’ → 3’ only!) 👷 DNA Polymerase adds nucleotides using base-pair rules: 🔸 A ↔ T 💞 🔸 C ↔ G 🤝 ⚡ Leading strand = smooth continuous build 🛣️ 🐢 Lagging strand = built in pieces (Okazaki fragments) 🧩🧩🧩 ⸻ 🧼 5) Clean-up + Joining 🧹 Primers removed & replaced with DNA 🔁 🧷 DNA Ligase = the glue gun 🔫✨ It seals Okazaki fragments into one continuous strand 🧬✅ ⸻ 🎯 Final Result (Super important!) ✅ Two identical DNA molecules Each one = 1 old strand + 1 new strand 🧬♻️ That’s Semi-Conservative Replication 💡 🧠💬 Quick quiz (comment answers!) 😄 1️⃣ Which enzyme “unzips” DNA? 🔓 2️⃣ Which enzyme “glues” fragments? 🧷 3️⃣ DNA is built in which direction? ➡️ 🎥 by yourgenome(yt)
#Genetic Code Reel by @learn_medicall - DNA replication is a vital, semi-conservative process where each new DNA molecule retains one parental strand and one newly synthesized strand, as pro
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@learn_medicall
DNA replication is a vital, semi-conservative process where each new DNA molecule retains one parental strand and one newly synthesized strand, as proven by the Meselson-Stahl experiment. Replication starts at origins of replication—single in prokaryotes (e.g., OriC in E. coli) and multiple in eukaryotes. Helicase unwinds the DNA, while single-strand binding proteins prevent reannealing. Primase lays down an RNA primer, allowing DNA polymerase to extend new DNA strands in the 5’→3’ direction. The leading strand is synthesized continuously, while the lagging strand forms Okazaki fragments, later joined by DNA ligase after primer removal. Topoisomerases relieve supercoiling, and proofreading ensures replication accuracy. Animation credit 📸- Thanks to "Your genome " Official Youtube Channel ♥️ . Link to watch original Video 👇 https://youtu.be/TNKWgcFPHqw?si=0ziJsI27CXmrrCdK . #dnareplication #dna
#Genetic Code Reel by @bioverse.initiative - 🧬 Editing life at its source - precision meets biotechnology. Watch how CRISPR rewrites DNA, opening doors to curing genetic diseases and shaping the
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@bioverse.initiative
🧬 Editing life at its source — precision meets biotechnology. Watch how CRISPR rewrites DNA, opening doors to curing genetic diseases and shaping the future of medicine.#Biotechnology #CRISPR #GeneEditing #DNA #Genetics MolecularBiology BioTechRevolution ScienceReels MedicalScience FutureOfMedicine GenomeEditing LifeSciences ScienceVisuals BioInnovation Research ScienceContent STEM ReelsIndia LearnScience
#Genetic Code Reel by @facts_and_stuff_by_d - Genotype is the complete set of genetic material that an organism inherits from its parents. It is the genetic makeup of an organism, and it determine
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@facts_and_stuff_by_d
Genotype is the complete set of genetic material that an organism inherits from its parents. It is the genetic makeup of an organism, and it determines the organism's traits. Genotype can be thought of as the instructions for building an organism. It contains the information for everything from the organism's eye color to its susceptibility to disease. Genotype is often compared to phenotype, which is the observable traits of an organism. For example, eye color is a phenotype, while the genotype for eye color is the specific combination of genes that determines eye color. Genotype is inherited from parents through reproduction. When two organisms mate, they pass on half of their genetic material to their offspring. This means that each offspring has a unique genotype, which is a combination of the genotypes of its parents. Genotype is important because it determines the organism's traits. These traits can affect the organism's survival, reproduction, and overall fitness. For example, an organism with a genotype that makes it resistant to disease is more likely to survive and reproduce than an organism with a genotype that makes it susceptible to disease. Here is a simple analogy to help you understand genotype: Imagine that genotype is like a recipe for baking a cake. The recipe contains all of the instructions for making the cake, including the ingredients, the amount of each ingredient, and the steps on how to mix and bake the cake. The ingredients in the recipe are like the genes in the genotype. The amount of each ingredient is like the number of copies of each gene that an organism has. And the steps on how to mix and bake the cake are like the instructions for how to build an organism from its genetic material. Just as different recipes can produce different cakes, different genotypes can produce different organisms. For example, the genotype for eye color can produce different eye colors, such as brown, blue, or green. Voiced @kaijinruh @facts_and_stuff_by_d #biology #genetics #gene #geneticengineering
#Genetic Code Reel by @biologyexams4uvideos - Genetic disorders: Mendelian Disorders and Chromosomal Disorders #biologyexams4u #biologyexams4uvideos #neetbiology #genetics #geneticdisorders #examp
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@biologyexams4uvideos
Genetic disorders: Mendelian Disorders and Chromosomal Disorders #biologyexams4u #biologyexams4uvideos #neetbiology #genetics #geneticdisorders #examples
#Genetic Code Reel by @connectgenomics (verified account) - This is just the basics of what's needed to become a genetic counselor. What else would you add to this list? #geneticcounselor #geneticcounseling #
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@connectgenomics
This is just the basics of what’s needed to become a genetic counselor. What else would you add to this list? #geneticcounselor #geneticcounseling #gc #futuregc #medicalgenetics #connectgenomics
#Genetic Code Reel by @rxpharmax - 🧬 How Small is DNA? (In Detail) DNA - or deoxyribonucleic acid - is one of the smallest yet most complex biological molecules in existence. It's the
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@rxpharmax
🧬 How Small is DNA? (In Detail) DNA — or deoxyribonucleic acid — is one of the smallest yet most complex biological molecules in existence. It's the instruction manual for all living organisms, yet its physical size is mind-blowingly tiny. 📏 Size & Structure Breakdown: 1. Width of DNA Double Helix: Only 2 nanometers (nm) wide. ⚠️ 1 nanometer = one-billionth of a meter (0.000000001 m). To compare: A human hair is about 80,000–100,000 nanometers wide — DNA is about 40,000 times thinner! 2. Length in One Cell: If the DNA in just one human cell was unwound and stretched out, it would be about 2 meters (6.5 feet) long! Yet it fits inside the nucleus, which is only 6 micrometers (μm) wide. This is possible because DNA is tightly coiled and packed into chromosomes. 3. Total DNA in Human Body: You have about 37 trillion cells, each with 2 meters of DNA → that’s enough to stretch from the Earth to the sun hundreds of times. 4. Scale Comparison: You’d need a powerful electron microscope to even "see" DNA. Even light microscopes can’t resolve something that small — that’s how tiny DNA really is! 🧪 Mind-Blowing Facts: The entire human genome contains over 3 billion base pairs of DNA. It takes just 4 bases (A, T, G, C) in countless combinations to write the blueprint for life. All this fits into a tiny, invisible package inside each of your cells! Credits:-@world_of_medicss #DNA #DNAScience #Genetics #MicroscopicWorld #NanoScience #MolecularBiology #HumanGenome #ScienceFacts #Biotech #CellBiology #DNAHelix #InvisibleToTheEye #NanoWorld #LifeCode #ScienceIsAwesome #ExploreBiology #ScienceExplained #MicroscopeMagic #GeneticCode #ScienceReels
#Genetic Code Reel by @bibleinframes1 - The Language of Life: The Code Beyond Chance 🧬✨ Often, science and faith are seen as competing narratives-one based on evidence, the other on belief
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@bibleinframes1
The Language of Life: The Code Beyond Chance 🧬✨ Often, science and faith are seen as competing narratives—one based on evidence, the other on belief. But when we look into the microscopic world of a single human cell, the line between them begins to blur. In this powerful clip, we explore the sheer complexity of DNA that defies the idea of a "cosmic accident." Your body contains 100 trillion cells. Inside every single one is a four-letter chemical alphabet—a code so dense and sophisticated that it contains more information than 200 years' worth of newspapers. It isn't just matter; it’s a set of precise instructions for building you. If a computer program requires a programmer, what does a biological code of this magnitude suggest? Nature can produce many things, but it has never been observed to spontaneously create high-level, functional information. #godproject #dna #scienceandfaith #creator #faith
#Genetic Code Reel by @cleoabram (verified account) - This new tool might save your life. This new tool can now predict which parts of your DNA might cause serious disease, which could save your life. W
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@cleoabram
This new tool might save your life. This new tool can now predict which parts of your DNA might cause serious disease, which could save your life. We have no idea what most of the DNA in our body actually does…just 2% of it makes proteins, and the rest…? For decades we called it “junk DNA”! But now we know it’s actually really important for your health To understand HOW, scientists are using this new tool… I spoke to the head of the team who made this and he told me what we could do if we could EDIT that DNA too… To see that, follow along! #DNA #health #deepmind #science #tech

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