Podcast
MCAT Basics (from MedSchoolCoach)
Hosted by MedSchoolCoach · EN
Join us as we detail MCAT exam topics. Each podcast covers several MCAT sections with lessons based on review material put out by the AAMC, such as practice tests and question banks. Sam also interviews MCAT tutors and experts who share tips on how premed students can raise their score to get into medical school.
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Episodes
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Amino Acids
Yesterday00:22:09Tap to summarizeAmino acids are the building blocks of life and an essential topic for the MCAT. In this episode, host Sam Smith takes us through the key concepts of amino acids, including their structures, naming conventions, and roles in protein formation. We’ll cover the differences between hydrophobic and hydrophilic amino acids, how to memorize single-letter abbreviations, and the importance of charged amino acids in physiological conditions. Additionally, Sam touches on mutations and how they can affect protein folding and enzyme function. Visit medschoolcoach.com for more help with the MCAT. Jump into the conversation: (00:00) Intro (01:47) Amino acids naming conventions and abbreviations (04:49) Hydrophobic vs. hydrophilic amino acids (05:39) Charged and uncharged amino acids (10:14) Explanation of mutation notation (11:53) Mutations affecting the substrate pocket of enzymes (13:15) Mutations impacting enzyme functionality (15:58) Role of amino acids in protein tertiary structure (17:15) Salt bridges and protein stability (20:47) Quiz
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The Muscular System
6d ago00:34:57Tap to summarizeThis MCAT BAsics episode covers the muscular system. It begins with the differences and similarities between the three types of muscle (smooth, cardiac, and skeletal). Then, the podcast explores the basic structure of a skeletal muscle cell and the various organelles unique to this cell type, including the sarcolemma, sarcoplasm, myofibrils, sarcomeres, and more. Next, it discusses three main differences between Type 1 and Type 2 muscle fibers. Finally, it delves into muscle contraction, starting at the neuromuscular junction and ending with the shortening of sarcomeres, which causes muscle flexion. Visit MedSchoolCoach.com for more help with the MCAT. [00:00] Introduction [02:09] Types of muscle - smooth, cardiac, skeletal [04:49] The structure of a muscle cell in skeletal muscle [15:11] The difference between Type 1 and Type 2 muscle fibers [23:08] Understanding how a muscle contracts [27:53] The Cross-Bridge cycle
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Fluid Statics
1w ago00:50:44Tap to summarizeThis MCAT Basics episode covers fluid statics (fluids standing still). It begins with different fluid properties, including surface tension, vapor pressure, adsorption and absorption, adhesion and cohesion, and Henry's law. Next, it discusses several important fluid statics concepts: static fluid pressure, Pascal's law, gauge pressure vs absolute pressure, osmotic pressure, and buoyancy. For information on fluid dynamics (moving fluids), skip to the 43:00 mark in the cardiovascular system + fluids podcast. Visit MedSchoolCoach.com for more help with the MCAT. [00:00] Introduction [02:18] Properties of fluids [07:10] Surface Tension [11:54] Difference between adsorption and absorption [14:09] Vapor Pressure [19:07] Henry’s Law [20:35] Static Fluid Pressure [25:10] Pascal’s Law [29:23] The difference between gauge pressure and absolute pressure. [31:24] Osmotic Pressure [44:35] Buoyancy
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Electron Transport Chain
2w ago00:36:45Tap to summarizeThe electron transport chain is a fundamental pathway in biochemistry, critical for understanding the energy production that powers cellular function. In this episode, guest host Alex Starks breaks down the intricate process of the electron transport chain (ETC). Building on previous discussions of glucose metabolism, Alex walks through the components that play key roles in the movement of electrons through complexes within the inner mitochondrial membrane. We also cover the functions of coenzyme Q and cytochrome c, as well as oxygen’s critical role in completing the process. Visit medschoolcoach.com for more help with the MCAT. Jump into the conversation: (00:00) Intro (02:11) Recap of glycolysis, pyruvate, and the Krebs cycle (03:02) Location of the TCA cycle and ETC in the mitochondria (04:22) Overview of NADH and FADH2 production (05:38) Complex I: NADH dehydrogenase and coenzyme Q (08:00) Complex II: Succinate dehydrogenase and FADH2 (11:15) Complex III: Cytochrome c reductase and the role of proton pumping (14:32) Complex IV: Cytochrome c oxidase and oxygen (18:14) The role of ATP synthase (21:47) Total ATP yield from aerobic respiration (26:00) How the electron chain is disrupted (30:20) Uncouplers and their metabolic effects (35:16) Quiz
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Gluconeogenesis
2w ago00:22:07Tap to summarizeOne of the body's key survival mechanisms is gluconeogenesis, a vital metabolic process, and the body's clever way of making glucose when supplies are low. On this episode of the MCAT Basics podcast, guest host Alex Starks walks through the process of gluconeogenesis. He explains how the body generates glucose when levels drop. Highlighting the liver's role, Alex explains how amino acids, lactate, and glycerol are converted into glucose. The episode also touches on the energy demands of the process and why muscle cells aren't involved in gluconeogenesis. Visit medschoolcoach.com for more help with the MCAT. Jump into the conversation: (00:00) Intro (02:15) Overview of glucose metabolism and glycogen storage (03:37) The liver’s role in maintaining blood glucose levels (05:11) Glucogenic amino acids and their role in glucose production (06:06) Conversion of alanine and glutamine to pyruvate (06:53) Lactate and the Cori cycle (07:34) Glycerol from triglycerides entering gluconeogenesis (08:27) The first bypass reaction: Pyruvate to oxaloacetate (09:55) The role of mitochondria and the malate-aspartate shuttle (11:00) Phosphoenolpyruvate formation and energy requirements (12:16) Steps of gluconeogenesis and ATP consumption (13:38) The second bypass reaction: Fructose 1,6-bisphosphate to fructose 6-phosphate (14:16) The third bypass reaction: Glucose 6-phosphate to glucose (15:31) Gluconeogenesis regulation and the role of glucagon (17:10) Quiz
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Isomers
3w ago00:31:14Tap to summarizeIn this episode, we delve into three common types of isomers that you are likely to encounter on the MCAT: structural isomers, geometric isomers, and stereoisomers. We start by defining each type of isomer, providing clear and concise explanations to ensure a solid understanding. Next, we present common examples of each isomer type to illustrate their unique characteristics. Finally, we discuss real-world applications and scenarios where these isomers are relevant, particularly in the context of the MCAT. This material will appear in the Physical Chemistry section of the MCAT and may also be found in the Biochemistry section. Visit MedSchoolCoach.com for more help with the MCAT. Jump Into the Conversation: [00:00] Introduction [02:06] Structural isomers [06:03] Geometric isomers [15:50] Three different kinds of stereoisomers [16:30] Enantiomers [17:44] Diastereomers [18:46] Conformational isomers [22:06] Key terms regarding stereoisomers [26:54] Difference between absolute and relative configurations of stereoisomers [28:22] Interesting example of stereoisomers in different sugars
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The Cell Cycle
3w ago00:33:08Tap to summarizeIn this episode, we explore the different phases of the cell cycle: Interphase (G1, S, G2) and the M phase (mitosis). Next, we discuss the regulation of the cell cycle and the key checkpoints that ensure its proper progression. Finally, we touch on how dysfunction in the cell cycle can lead to diseases, particularly cancer. This material is likely to appear in the Bio/Biochem section of the MCAT. Visit MedSchoolCoach.com for more help with the MCAT. [00:00] Introduction [02:06] Overview of the cell cycle [02:38] Two main phases of the cell cycle [04:11] Interphase [12:43] Mitotic phase [18:20] Regulation of the cell cycle [27:09] Relevant examples of the cell cycle and disease
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Classic Psychology Experiments
4w ago00:50:35Tap to summarizeIn this episode, we delve into classic psychology experiments –relevant to the Psych/Soc section of the MCAT. We cover a range of significant studies, including Pavlov’s Dog, Harlow’s Monkey Study, Albert’s Bobo Doll Experiment, the Skinner Box Experiment, Asch’s Conformity (Line) Experiment, the Milgram Experiment, Watson’s Little Albert Experiment, Sherif’s Robbers Cave Study, and Seligman’s Learned Helplessness Dog Study. Additionally, we touch on rapid-fire cases like Zimbardo’s Prison Experiment, the Kitty Genovese case, and Phineas Gage’s story. Visit MedSchoolCoach.com for more help with the MCAT. [00:00] Introduction [02:37] Pavlov’s Dog Experiment [07:40] Harlow’s Monkey Study [12:05] Albert’s Bobo Doll Experiment [15:41] The Skinner Box Experiment [24:12] Asch Conformity (Line) Experiment [28:16] The Milgram Experiment [36:01] Watson’s Little Albert Experiment [39:10] Sherif’s Robbers Cave Study [43:17] Seligman’s Learned Helplessness Dog Study [46:14] Zimbardo’s Prison Experiment [48:39] The Kitty Genovese case [49:47] Phineas Gage’s story
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Social Stratification
4w ago00:41:24Tap to summarizeThis MCAT podcast covers social stratification. It begins with a definition and examples of many terms related to social stratification and inequality, including prejudice, discrimination, stereotype, stereotype threat, status (ascribed vs achieved), power (six different types to know), social capital (and other forms of capital), gentrification, and poverty. The discussion then moves on to social class and the social gradient in healthcare. Visit MedSchoolCoach.com for more help with the MCAT. [00:00] Introduction [02:24] Terms related to social stratification [03:03] Defining social stratification [03:53] What is prejudice [04:57] Defining stereotype and discrimination [09:29] What is stereotype threat [13:04] Status and the six different types of power [21:50] Social Capital [23:38] Defining gentrification [25:07] Absolute poverty vs. relative poverty [27:59] Social Class [33:53] Social Stratification in Healthcare
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Cell Organelles
Apr 3000:54:52Tap to summarizeThis podcast explores cell organelles, organized into five categories: organelles found in all cells, eukaryotic cells, plant and bacterial cells, human and bacterial cells, human cells only, and plant cells only. The organelles discussed include ribosomes, vacuoles, cytoskeleton, plasma membrane, peroxisome, proteasome, nucleus, nucleolus, smooth and rough endoplasmic reticulum, Golgi apparatus, lysosome, cell wall, flagella, mitochondria, melanosome, and chloroplasts. Visit MedSchoolCoach.com for more help with the MCAT. Jump into the conversation: [00:00] MCAT Tutoring from MedSchoolCoach [00:34] Welcome to MCAT Basics [01:06] Topics covered in this episode [01:59] Definition of “Cell Organelles” [03:59] Organelles found in all cells - ribosomes, vacuoles, cytoskeleton, plasma membrane, peroxisome, proteasome [22:42] Organelles that show up in eukaryotes only - nucleus, nucleolus, smooth and rough endoplasmic reticulum, Golgi apparatus, lysosome [40:03] Orgnalles shared by plants and bacteria - cell wall and flagella [46:40] Organelles found in human cells only - mitochondria, melanosome, and chloroplasts
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