Jmol-Application/C2/Proteins-and-Macromolecules/English-timed
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| Time | Narration | |||
| 00:01 | Welcome to this tutorial on Proteins and Macromolecules. | |||
| 00:06 | In this tutorial, we will learn to | |||
| 00:09 | * Load structures of proteins from Protein Data Bank (PDB). | |||
| 00:13 | * Download .pdb files from PDB database. | |||
| 00:18 | * Display secondary structure of proteins in various formats | |||
| 00:24 | * Highlight hydrogen bonds and disulfide bonds. | |||
| 00:29 | To follow this tutorial you should be familiar with basic operations from Jmol Application window. | |||
| 00:37 | If not, watch the relevant tutorials available at our website. | |||
| 00:42 | To record this tutorial I am using, | |||
| 00:46 | * Ubuntu OS version. 12.04 | 00:50 | * Jmol version 12.2.2 | |
| 00:54 | * Java version 7 | |||
| 00:57 | * Mozilla Firefox Browser 22.0 | |||
| 01:02 | Structure Analysis of large biomolecules such as | |||
| 01:06 | * Proteins and Macromolecules | |||
| 01:10 | * Nucleic acids, DNA and RNA | |||
| 01:13 | * Crystal structures and polymers can be done using Jmol Application. | |||
| 01:19 | Here I have opened a new Jmol window. | |||
| 01:24 | 3D structures of biomolecules can be viewed, by direct download from database. | |||
| 01:29 | To do so, click on File menu, scroll down to Get PDB. | |||
| 01:36 | An input dialog box appears on screen. | |||
| 01:40 | We have to type the four letter PDB code for the particular protein, in the input box. | |||
| 01:48 | This code can be obtained from the Protein Data Bank (PDB) website. | |||
| 01:53 | This is the web page of Protein Data Bank.
| |||
| 01:57 | It has information about biomolecules such as proteins and nucleic acids. | |||
| 02:04 | As an example: Let us try to find PDB code for Pancreatic Enzyme Insulin from the PDB website. | |||
| 02:13 | In the search box type name of the protein as Human Insulin.
Press Enter key on the keyboard. | |||
| 02:24 | Now, on the web-page that is displayed, scroll down. | |||
| 02:28 | A list of known structures of Human Insulin along with the PDB codes appear on screen. | |||
| 02:36 | As an example, let's select Human Insulin with a code 4EX1. | |||
| 02:44 | Click on the name of the protein. | |||
| 02:47 | A window opens with all the details of the structure. | |||
| 02:52 | Information like | |||
| 02:54 | * Primary Citation | |||
| 02:56 | * Molecular Description and | |||
| 02:58 | * Structure Validationare available on this page.
| |||
| 03:02 | We can save the structures of proteins as .pdb files and view them in 3D mode in Jmol. | |||
| 03:12 | Click on the Download Files link, located at the top right hand corner of the page. | |||
| 03:20 | From the drop down menu, select PDB file (gz) option. | |||
| 03:28 | A dialog box opens on the screen. | |||
| 03:32 | Select Save file option. | |||
| 03:35 | Click on OK button. | |||
| 03:39 | The structure of protein will be saved as 4EX1.pdb.gz, in the Downloads folder. | |||
| 03:51 | Similarly, you can download the required .pdb files of various proteins and save them in separate files. | |||
| 04:02 | Now, lets switch to Jmol window to view the 3D structure of Insulin. | |||
| 04:09 | If you are connected to Internet, you can directly download the protein structure on Jmol panel. | |||
| 04:15 | Type the 4 letter PDB code “4EX1” in the text box and click on OK button. | |||
| 04:25 | If you are not connected to Internet, then click on Open a File icon on the tool bar. | |||
| 04:34 | A dialog box opens on the panel. | |||
| 04:38 | Navigate to the location of 4EX1.pdb.gz file i.e. to Downloads folder. | |||
| 04:47 | Select Downloads folder and click on open button. | |||
| 04:52 | Select 4EX1.pdb.gz file and click on open button. | |||
| 05:00 | 3D Structure of Insulin opens on screen. | |||
| 05:05 | The default display of the protein on the panel, is ball and stick. | |||
| 05:12 | The model of protein on the panel is shown without hydrogens atoms. | |||
| 05:17 | To show the model with hydrogen atoms, open the modelkit menu. | |||
| 05:23 | Scroll down to add hydrogens option and click on it. | |||
| 05:28 | The model on the panel is now displayed with hydrogen atoms. | |||
| 05:33 | The protein structure is also shown with water molecules. | |||
| 05:38 | To hide the water molecules, follow the steps as shown. | |||
| 05:43 | First open the pop-up menu and go to Select. | |||
| 05:48 | From the sub-menu,choose Heteroand click on “All Water option.
| |||
| 05:55 | Open the pop-up menu again, go to Style, Scheme and click on CPK spacefill option. | |||
| 06:05 | This will convert all the water molecules to CPK Spacefill display. | |||
| 06:11 | Open the pop-up menu again and go to Style scroll down to Atoms and click on Off option. | |||
| 06:22 | Now on panel we have Insulinstructure without any water molecules. | |||
| 06:27 | Next, let us learn to display the secondary structure of the protein in various formats. | |||
| 06:35 | Open the pop-up menu. | |||
| 06:37 | Go to Select option. | |||
| 06:39 | Scroll down to Protein and click on All option. | |||
| 06:44 | Open the pop-up menu again and scroll down to Style, then Scheme. | |||
| 06:50 | A sub-menu opens with options like CPK Spacefill, Ball and Stick, Sticks, Wireframe, cartoon, trace, etc. | |||
| 07:02 | Click on Cartoon option from the sub-menu. | |||
| 07:07 | This display shows the secondary structure of protein as helices, random coils, strands, sheets etc.
| |||
| 07:17 | For more display options, | |||
| 07:19 | Open the pop-up menu and scroll down to Style, then to Structures. | |||
| 07:25 | Here we see many more options to display secondary structure of protein. | |||
| 07:31 | For example click on Strands option. | |||
| 07:35 | The protein is now displayed as Strands on the panel. | |||
| 07:40 | To change the color of display, open the Pop-up-menu. Scroll down to Color select Atoms and click on Blue option. | |||
| 07:52 | Observe the change in color on the panel. | |||
| 07:56 | To convert the structure back to Ball-and-stick display, | |||
| 07:59 | Open the pop-up menu, select Style, then Scheme and click on Ball and stick option.
| |||
| 08:08 | We can also highlight hydrogen bonds and di-sulpfide bonds in the protein model. | |||
| 08:14 | To display hydrogen bonds: Open the pop-up menu and scroll down to Style and then to Hydrogen Bonds option. | |||
| 08:25 | The Hydrogen Bonds option in the Pop-up menu has features such as:
| |||
| 08:30 | Calculate, Set Hydrogen Bonds Side Chain. | |||
| 08:35 | Set Hydrogen Bonds in the Backbone.
And also has options to change the thickness of the bonds. | |||
| 08:42 | Click on Calculate option to show the hydrogen bonds in the model. | |||
| 08:47 | The hydrogen bonds are displayed as white and red long dashes. | |||
| 08:53 | To change the thickness of hydrogen bonds, Click on 0.10 A option from the pop-up-menu. | |||
| 09:02 | Now on the panel we can see thicker hydrogen bonds. | |||
| 09:06 | We can also change the color of hydrogen bonds. | |||
| 09:11 | From the Pop-up-menu scroll down to Color then Hydrogen Bonds then click on orange option. | |||
| 09:20 | On the panel, we have all the hydrogen bonds in orange color. | |||
| 09:25 | Disulfide bonds, and sulphur atoms are shown in the model in yellow colour. | |||
| 09:31 | To modify disulfide bonds open the option disulfide bonds in pop menu
| |||
| 09:38 | Click on the features you may want to change like size and color etc. | |||
| 09:44 | Similarly try to open .pdb files of different enzymes and view their 3D structures. | |||
| 09:51 | Let us summarize, in this tutorial we have learnt to: | |||
| 09:57 | * To Load structures of protein from Protein Data Bank (PDB). | |||
| 10:00 | * Download .pdb files from the database. | |||
| 10:05 | * View 3D structure of Insulin using PDB code. | |||
| 10:10 | * View Protein structure without water molecules. | |||
| 10:14 | * Display secondary structure in various formats. | |||
| 10:17 | * Highlight hydrogen bonds and disulfide bonds. | |||
| 10:22 | Here is an assignment for you. | |||
| 10:24 | * Download the .pdb file of Human Hemoglobin from PDB database. | |||
| 10:31 | * Show secondary structure in cartoon display. | |||
| 10:35 | * Highlight the “porphyrin” units of the protein. | |||
| 10:39 | * Refer the following link for the PDB code. | |||
| 10:42 | Watch the video available at this URL.
http://spoken-tutorial.org/What_is_a_Spoken_ Tutorial | |||
| 10:46 | It summarizes the Spoken Tutorial project | |||
| 10:50 | If you do not have good bandwidth, you can download and watch it | |||
| 10:55 | The Spoken Tutorial Project Team: | |||
| 10:57 | Conducts workshops using spoken tutorials | |||
| 11:01 | Gives certificates to those who pass an on-line test | |||
| 11:06 | For more details, please write to contact@spoken-tutorial.org | |||
| 11:13 | Spoken Tutorial Project is a part of the Talk to a Teacher project | |||
| 11:18 | It is supported by the National Mission on Education through ICT, MHRD, Government of India | |||
| 11:25 | More information on this Mission is available at this link http://spoken-tutorial.org/NMEICT-Intro ] | |||
| 11:31 | This is Snehalatha from IIT Bombay signing off. Thank you for joining. |
