C’est pas des conférences, mais des cours universitaires professionnels. Une conférence, on ne prendrait pas autant de notes, et Mme SIVE, n’écrirait pas autant au tableau. Pourquoi s’embêterais-elle comme ça, alors qu’il existe les supports PowerPoint et les rétroprojecteurs?
@@tjo1984 I graduated from the school of nursing. I'm a nurse (BSN-RN) I love open course. In fact I'm in the middle one right now by Yale University "The Science of Well-Being".
Interesting lecture for: - @9:44 3D-optical image of 100um^3 of the human brain (~100 cells) - @22:00 higher concentration of Na+ and Ca++ outside the cell --> negative membrane potential - @23:40 explanation of action potential dynamics
not studied biology previously - viewed some neuroscience videos MIT OCW and these - thanks to all at MIT for the knowledge many thanks Hazel and MIT team R
2:20 c-Myc is a proto-oncogen which in summary is involved in cell proliferation not an oncogene (turns into oncogene by the right mutations). A biology professor at MIT should know how important it's to build a real understanding of biology by not misinterpreting important concepts in cancer biology.
Imagine this was a lecture from 2009. I still listen to it because of the basis, so figure: 2021 how much more do we know about it! I wish MIT could share recent lectures like this for Neurobiology.
(On Wednesday of January 25, 2023) On The Lecture of PhD Hazel Sive on the Matter of Introductory Biology Open Courseware Of Massachusetts Institute of Technology (MIT); Questions of Students on Various Topics: 1) Induced Pluripotent Stem Cells (iPS Cells). 2) MYC-C Gene (Transcription Factor) and its Proto-oncogene Function; 3) Autologous nature And benefit of iPS Cells; Otherwise, Biological Systems or Organ Systems which Synergistically Function To Create One Whole Functioning Body or Specie. Thereafter on the Matter of Neurobiology and the Nervous System with the basic Unit, the Neuron; 1Axons (Wire Analogy) is a Long and Intracellular Signal known for Rapid Signal Transduction (Transmission) in the Process of Ionic Movement (Action Potential Propagation). The Bi-layered Membrane Potential (Positive Charge) is at a Differential (Na+ Higher Concentration in outside than in Anion Concentrated (Mostly Cl- Anion, but also Low K+ Cations) Inner Plasma Membrane; Thereafter the Action Potential (AP) is a local and transient Depolarization of Plasma Membrane (Positive Outer Layer becoming Negative, Repolariziation which Propagates the Signal); Threshold Potential is Slight Depolarization which goes on to synergistically build an even Greater Depolarization (-55mv) at a surface area of a micron squared for a millisecond time length Reversing Polarity at a Zero-Sum Conception (-55mv to about 60mv); A Refractory Property of the Plasma Membrane is the ability and quality of signal propagation unidirectionally and not in multiple or bi-direction; Myelination of the Axons is the structural Layering of the Axon for the Purpose of insuring Na+ Cations Locality (or insulation of the Axon by a fatty bi-layered sheaths); Nodes without Myelin are where the Action Potential Initiates; 2) Ion Channels are permeable exclusively to Ions Diffusing Across the Membrane; a) Gated Ion Channels require a Stimulus (Ligand-Receptor Signal Transduction Modality) to Open an thereby influence AP; and 3) Ion Pumps are Essential in the Regulation of Action Potentials a) Na+/K+ Pump (aka ATPase) allowing K+ in at a Rate of 2 K+ ion and 3 Na+ Out (3 to 2 Ratio); b) Open Potassium (K+) Channel allowing Potassium Ions Out until there is a Na+ Ion Correction (Repelling the Potassium by Preponderance Gradient); c) Voltage Gated Na+ Channel is a Complex of Proteins with Closed Dynamics (Alpha Helices Charged Nature) at Resting Potential and Open when Threshold Potential Arises further Allowing the Propagation of the Action Potential (Most Channels Consist of Subunits of Various Proteins Sizes and Shapes with alpha-Beta Designations); d) Chloride Channel (Cl-) is Permissive to Cl- Anions (Chlorine 17P with a Gain of an Electron Making Chloride); 2) Synapse (Connection of minimal Length but crucial in Signal Transduction (Neurotransmitter Emission and Reception Site); 3) Action Potential And/or Singla and Cofactor of Ion Channel or Pump (Na=, Ca2+, Cl-, etcetera); 2) Glia (Auxiliary [Support] Cells without actual Nerve Function); Dendrites are Processes of Input Value or The Structure which Feeds a Neuron in Signal Transduction of Nerves. PhD Hazel Sive is an extraordinary Biochemists also as shown herein. Heil!
This is a very interesting course to study and reach your potential of learning from this grad School MIT. This School is very resourceful in giving value information in Neurobiology.
How do scientists got to know that how these things work that also at such tiny level. I think there must be a course also on how these were discovered.
whats the physics formula for the exchange of neurons per se at which its matters exchanges and the voltage on the sodium? even at that can ψ BE applued someplace at the action potential or some jargon lie that, like the formula of fourier trans or something off the wall like that? seems like there should be a physics formula that would represent the action on a molecular level of depoarization. μ WHICH THEN COULD IT MIGHT? in turn, change? even at which its potential to interact would perhaps
If anyone can answer my question real quick: in the last topic, when the threshold potential is reached becuase of the opposite charges on both sides of the membrane why would the NA gate open even without an input. Wouldnt this mean you would feel random things in your body if you left that part untouched for a while?
From what I remember in biology class, and maybe I’m misreading your question, there are two types of sodium gates, the one at the cell body, which require a neurotransmitter to get them to open up so INPUT, and the sodium gates that are voltage dependant (require electricity to open) there does not need to be an input per say in order to get these ones to open up. They are based off of the voltage throughout the axon , building up to a potential of 30 mV in the synaptic region. These sodium gates are lined up on the axon, and require the entrance of sodium (positively charged molecule) into the axon in order to open the subsequent gate.
Hello I'm sorry to disturb you I wanted to use a sentence in my research paper The main method of the human brain is what it tells it what to do May I know your opinion, do you think it is special? Nazhin Khamanzadeh Farzangan
that was a great lecture, thank you. I go to community college and get great grades because I watch only MIT lectures.
That’s awesome. Hope you’re still moving forward in your educational goals.
C’est pas des conférences, mais des cours universitaires professionnels. Une conférence, on ne prendrait pas autant de notes, et Mme SIVE, n’écrirait pas autant au tableau.
Pourquoi s’embêterais-elle comme ça, alors qu’il existe les supports PowerPoint et les rétroprojecteurs?
Lies again? NRIC ERIC
@@tjo1984 I graduated from the school of nursing. I'm a nurse (BSN-RN) I love open course. In fact I'm in the middle one right now by Yale University "The Science of Well-Being".
@@NazriB Why Lies?
Interesting lecture for:
- @9:44 3D-optical image of 100um^3 of the human brain (~100 cells)
- @22:00 higher concentration of Na+ and Ca++ outside the cell --> negative membrane potential
- @23:40 explanation of action potential dynamics
Wow. What a lecture. One of the best I have seen so far. Clear, concise, sequential and diagrammatic.
not studied biology previously - viewed some neuroscience videos MIT OCW and these - thanks to all at MIT for the knowledge
many thanks Hazel and MIT team
R
This is so profound and relatable to many other field's. This is a perfect Genius at work. Thank you!
Me yelling at my phone “shut up, let the woman speak”
Teacher on work, highest stranded of teaching
2:20
c-Myc is a proto-oncogen which in summary is involved in cell proliferation not an oncogene (turns into oncogene by the right mutations).
A biology professor at MIT should know how important it's to build a real understanding of biology by not misinterpreting important concepts in cancer biology.
Imagine this was a lecture from 2009. I still listen to it because of the basis, so figure: 2021 how much more do we know about it!
I wish MIT could share recent lectures like this for Neurobiology.
what a beautiful scientist and a beautiful lecture.
Great working with you Hazel.
(On Wednesday of January 25, 2023) On The Lecture of PhD Hazel Sive on the Matter of Introductory Biology Open Courseware Of Massachusetts Institute of Technology (MIT); Questions of Students on Various Topics: 1) Induced Pluripotent Stem Cells (iPS Cells). 2) MYC-C Gene (Transcription Factor) and its Proto-oncogene Function; 3) Autologous nature And benefit of iPS Cells; Otherwise, Biological Systems or Organ Systems which Synergistically Function To Create One Whole Functioning Body or Specie. Thereafter on the Matter of Neurobiology and the Nervous System with the basic Unit, the Neuron; 1Axons (Wire Analogy) is a Long and Intracellular Signal known for Rapid Signal Transduction (Transmission) in the Process of Ionic Movement (Action Potential Propagation). The Bi-layered Membrane Potential (Positive Charge) is at a Differential (Na+ Higher Concentration in outside than in Anion Concentrated (Mostly Cl- Anion, but also Low K+ Cations) Inner Plasma Membrane; Thereafter the Action Potential (AP) is a local and transient Depolarization of Plasma Membrane (Positive Outer Layer becoming Negative, Repolariziation which Propagates the Signal); Threshold Potential is Slight Depolarization which goes on to synergistically build an even Greater Depolarization (-55mv) at a surface area of a micron squared for a millisecond time length Reversing Polarity at a Zero-Sum Conception (-55mv to about 60mv); A Refractory Property of the Plasma Membrane is the ability and quality of signal propagation unidirectionally and not in multiple or bi-direction; Myelination of the Axons is the structural Layering of the Axon for the Purpose of insuring Na+ Cations Locality (or insulation of the Axon by a fatty bi-layered sheaths); Nodes without Myelin are where the Action Potential Initiates; 2) Ion Channels are permeable exclusively to Ions Diffusing Across the Membrane; a) Gated Ion Channels require a Stimulus (Ligand-Receptor Signal Transduction Modality) to Open an thereby influence AP; and 3) Ion Pumps are Essential in the Regulation of Action Potentials a) Na+/K+ Pump (aka ATPase) allowing K+ in at a Rate of 2 K+ ion and 3 Na+ Out (3 to 2 Ratio); b) Open Potassium (K+) Channel allowing Potassium Ions Out until there is a Na+ Ion Correction (Repelling the Potassium by Preponderance Gradient); c) Voltage Gated Na+ Channel is a Complex of Proteins with Closed Dynamics (Alpha Helices Charged Nature) at Resting Potential and Open when Threshold Potential Arises further Allowing the Propagation of the Action Potential (Most Channels Consist of Subunits of Various Proteins Sizes and Shapes with alpha-Beta Designations); d) Chloride Channel (Cl-) is Permissive to Cl- Anions (Chlorine 17P with a Gain of an Electron Making Chloride); 2) Synapse (Connection of minimal Length but crucial in Signal Transduction (Neurotransmitter Emission and Reception Site); 3) Action Potential And/or Singla and Cofactor of Ion Channel or Pump (Na=, Ca2+, Cl-, etcetera); 2) Glia (Auxiliary [Support] Cells without actual Nerve Function); Dendrites are Processes of Input Value or The Structure which Feeds a Neuron in Signal Transduction of Nerves. PhD Hazel Sive is an extraordinary Biochemists also as shown herein. Heil!
A remarkable lecture!
You will be rewarded for that.
Thank you so much for share the knowledge.
This has been an amazing lecture and I learned so much. Thank you 🙏🏻
Excelent content. Are there more lecutres from this professor available?
Yes. ocw.mit.edu/search/?q=Prof.+Hazel+Sive
This is a very interesting course to study and reach your potential of learning from this grad School MIT. This School is very resourceful in giving
value information in Neurobiology.
4:20 Nervous System
How do scientists got to know that how these things work that also at such tiny level. I think there must be a course also on how these were discovered.
Thanks 🤍❤️
I studied nervous system and I must declare that ignorance level of co-existence is so much more reproducable than eco-identity
Care to explain
whats the physics formula for the exchange of neurons per se at which its matters exchanges and the voltage on the sodium? even at that can ψ BE applued someplace at the action potential or some jargon lie that, like the formula of fourier trans or something off the wall like that? seems like there should be a physics formula that would represent the action on a molecular level of depoarization. μ
WHICH THEN COULD IT MIGHT? in turn, change? even at which its potential to interact would perhaps
Great lecture, Thank you
This is helpful ❤️🤍
If anyone can answer my question real quick: in the last topic, when the threshold potential is reached becuase of the opposite charges on both sides of the membrane why would the NA gate open even without an input. Wouldnt this mean you would feel random things in your body if you left that part untouched for a while?
From what I remember in biology class, and maybe I’m misreading your question, there are two types of sodium gates, the one at the cell body, which require a neurotransmitter to get them to open up so INPUT, and the sodium gates that are voltage dependant (require electricity to open) there does not need to be an input per say in order to get these ones to open up. They are based off of the voltage throughout the axon , building up to a potential of 30 mV in the synaptic region. These sodium gates are lined up on the axon, and require the entrance of sodium (positively charged molecule) into the axon in order to open the subsequent gate.
Sciatic nerve is one coz fast. Tempt secondary when lion snake etc..so slower ok...
Hello
I'm sorry to disturb you
I wanted to use a sentence in my research paper
The main method of the human brain is what it tells it what to do
May I know your opinion, do you think it is special?
Nazhin Khamanzadeh
Farzangan
Perfect lecture🙏🙏🙏🙏🌹🌹🌹🌹🌹🌹🌹😊
Great lecture for a Blender animation! 👍
This will be in my grade 10 exam...
This was a piece of craft. Thank you!
Can I translate this video to my country? I'll post here, in my channel.
Cells diagram.....body neuro systems....
Good sound ...love ur sound..
Computer Science, willing to understand neurobiology
There aren't even close to a trillion neurons in the human brain (9:05). There are about 86 billion.
Is this video from the early spring 11 or late?
Late spring, Lecture 24 is fairly far into the course.
7:45 Harry Styles reference
why wouldn't you just power point everything?
The art of teaching is the classical use of chalks on the board.
Because physically writing it on the board draws attention to what she's saying. Power point diagrams are more passive.
if you can express yourself on the board there is no need to open pc as a teacher.
Ok
7:46 Harry Styles
I had a problem with hearing her.
No Powerpoint? Ha ha. Traditionalist, I see. Ahhh, classic chalk on a board.
Воу, что я тут делаю?))) Кто хочет поступить в Америку???
понимаю