Difference between revisions of "Avogadro/C2/Build-molecules/English-timed"

Revision as of 20:28, 19 April 2018

Time	Narration
00:01	Warm greetings everyone!! Welcome to this tutorial on Build Molecules.
00:07	In this tutorial, we will learn to: Import molecules from database,
00:11	Rotate, zoom in and zoom out,
00:15	Build molecules on the Panel,
00:17	Set up force field and optimize geometry,
00:21	Measure bond lengths, bond angles, dihedral angles,
00:25	Show fragment library,
00:27	Build DNA molecules and Peptides.
00:31	Here I am using Ubuntu Linux OS version 14.04 , Avogadro version 1.1.1, Working Internet connection.
00:44	To follow this tutorial, you should have knowledge of basic Chemistry. To download Avogadro, please use the link shown sourceforge.net/projects/avogadro.
00:53	I have already downloaded Avogadro.
00:56	To open Avogadro , click on Dash home .
01:00	In the search bar, type avogadro .
01:02	Click on Avogadro icon to open the application.
01:08	Let's begin by importing a xylene molecule from chemical structure database .
01:15	To import a molecule, we need a working Internet connection.
01:19	Click on File menu, navigate to Import .
01:23	A sub-menu opens.
01:25	Select Fetch by chemical name .
01:28	Chemical name dialog box appears.
01:30	For demonstration, I will type xylene in the search box.
01:36	Click on OK button.
01:38	We now have a xylene molecule on the Panel .
01:42	Let's rotate the molecule on the Panel .
01:45	Click on Navigation tool on the tool bar.
01:49	Place the cursor on the molecule.
01:52	Hold the left mouse button and drag.
01:56	Notice the direction arrows indicating the drag.
02:00	To translate the molecule, use right mouse button and drag.
02:06	Scroll the mouse wheel to zoom in and zoom out the structure.
02:10	Let's learn how to create a molecule.
02:14	To create a molecule, click on Draw Tool icon on the tool bar.
02:19	Under Draw Settings menu, we can see Element drop down button, Bond Order drop down button, Adjust Hydrogens check box.
02:30	If you don't want hydrogens on the structure, un-check Adjust Hydrogens check box.
02:37	Element drop down list shows list of elements.
02:42	Click on Other to view the entire Periodic table in a separate window.
02:48	Click on Close (X) to close the window.
02:51	Lets draw structure of Aniline on the Panel .
02:55	Select Carbon from Element drop down list.
02:59	Select Single from Bond Order drop down.
03:03	Click on the Panel .
03:05	Drag and drop to make a closed chain of six carbon atoms.
03:10	To show double-bonds, select Double from Bond Order drop-down.
03:16	Click on alternate bonds to obtain Benzene structure.
03:21	Let's complete Aniline structure.
03:24	Select Nitrogen from Element drop down list.
03:29	Select Single from Bond Order drop down.
03:33	Click on any one of the carbon atoms on the structure and drag.
03:39	Go to Build menu and select Add Hydrogens .
03:45	We have the structure of Aniline on the Panel.
03:49	To get a stable conformation, Aniline structure on the Panel needs to be optimized.
03:56	To optimize, click on Auto Optimization Tool on the tool bar.
04:02	AutoOptimization Settings menu appears on the left.
04:06	Click on Force Field drop-down list, select MMFF94 .
04:13	MMFF94 is generally used to optimize small organic molecules.
04:20	Click on Start button.
04:23	It will take a few seconds to complete the optimization.
04:28	Click on Stop to close the Optimization Settings.
04:33	Let's measure bond lengths, bond angles and dihedral angles of Aniline .
04:40	Select Click to Measure icon on the tool bar.
04:44	To measure distance, click on any two consecutive carbon atoms.
04:49	To measure angles, click on any 3 consecutive atoms.
04:55	To measure dihedral angles, click on any 4 consecutive atoms.
05:02	Measured values appear at the bottom of the Panel .
05:07	To save the file, click on File and Save As .
05:13	Save Molecule As dialog-box appears.
05:17	Type the File Name as Aniline.cml .
05:21	Choose the location as Desktop and click on Save button.
05:28	Click on New icon to open a new window.
05:32	Avogadro software has a feature to build complex molecules using fragment library.
05:38	Go to Build menu.
05:40	Navigate to Insert and select Fragment option.
05:45	Insert Fragment dialog box opens.
05:49	We can see list of folders having cml files of different chemical structures.
05:55	For example let's open alkenes folder.
06:00	Double click on the folder to view the contents of the folder.
06:04	Select 2-methyl-buta-1,3-diene.cml .
06:10	Click on Insert button.
06:13	Click on Close to close the dialog box.
06:17	2-methyl-1,3-butadiene structure is displayed on the Panel .
06:22	It is commonly called as Isoprene.
06:26	We can build many natural products using Isoprene
06:30	The molecule is in select mode.
06:33	To de-select, press CTRL, SHIFT and A keys simultaneously.
06:39	As an example: I will show Vitamin A and natural rubber which were built using Isoprene .
06:47	Vitamin A, natural rubber .
06:51	I will translate Isoprene to a corner.
06:56	Click on Build menu, navigate to Insert and select Fragment .
07:02	Scroll down to macrocycles folder; double click to open.
07:08	Select porphin fragment and click on Insert .
07:14	Close the dialog box.
07:16	Using porphyrin fragment, we can build complex chemical structures: Such as Chlorophyll and Vitamin B12 .
07:25	Chlorophyll
07:27	Vitamin B12.
07:30	Complex molecules like DNA and peptides can be easily built using Avogadro .
07:37	Open a new window using New icon.
07:41	To insert a DNA molecule, go to Build menu, navigate to Insert and click on DNA/RNA from the sub-menu.
07:51	Insert Nucleic Acids dialog box appears.
07:55	Select DNA from DNA/RNA Builder drop down.
08:00	Four nucleic acid bases are shown as buttons.
08:05	Click on the buttons to choose the nucleic acid sequence.
08:10	You can choose your own sequence of acids .
08:14	For demonstration, I will select A T G C A T G C.
08:26	The order of selection of nucleic acids appear in the Sequence text box.
08:32	In the Bases Per Turn drop down, select A, select "5": which is the number of base pairs per Helix .
08:41	Select Strands as Single and click on Insert button.
08:47	Click on Close to close the dialog box.
08:51	We now have a single stranded DNA molecule on the Panel .
08:56	Zoom out the structure and drag to the center of the Panel .
09:01	To deselected the DNA molecule on the Panel , press CTRL, Shift and A keys simultaneously.
09:09	We can also create a Peptide sequence using Peptide option in the Insert menu.
09:16	Again click on New icon to open a new window.
09:21	Go to Build menu, scroll down to Insert and Peptide .
09:26	Insert Peptide dialog box appears.
09:29	Select amino acids for the Peptide sequence by clicking on the amino acids button.
09:36	For demonstration, I will choose the sequence as Glycine(Gly) -Valine(Val) -Proline(Pro) and Cystine(Cys) .
09:45	The order of selection appears in the Sequence text box.
09:50	Click on Insert Peptide button.
09:53	Close the Insert Peptide dialog box.
09:57	Peptide chain appears on the Panel .
10:00	To de-select the Peptide on Panel , press CTRL, Shift and A keys simultaneously.
10:07	You can choose the amino acids of your choice and build the Peptide sequence.
10:13	Let's summarize.
10:15	In this tutorial, we learnt to :
10:18	Import molecules from the database,
10:21	Rotate, zoom in and zoom out,
10:24	Build molecules on the panel,
10:26	Set up force field and optimize geometry,
10:30	Measure bond lengths, bond angles, dihedral angles,
10:35	Show fragment library,
10:37	Build DNA molecules and Peptides .
10:41	As an assignment - Create a protein sequence using the following amino acid residues:
10:49	Optimize the geometry using UFF force field.
10:53	Save the image as .cml file.
10:58	Build RNA sequence using the Nucleic acids: AUGC .
11:04	Optimize geometry using MMFF94 force field.
11:10	Save the image as .cml file.
11:14	This video summarizes the Spoken Tutorial project.
11:18	If you do not have good bandwidth, you can download and watch it.
11:23	We conduct workshops using Spoken Tutorials and give certificates. Please contact us.
11:30	Spoken Tutorial Project is funded by NMEICT, MHRD Government of India.
11:36	This tutorial is contributed by Viswa Janani Vasudhevan and Madhuri Ganapathi. Thank you for joining.

Contributors and Content Editors

PoojaMoolya, Sandhya.np14

Difference between revisions of "Avogadro/C2/Build-molecules/English-timed"

Revision as of 20:28, 19 April 2018

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@@ Line 5: / Line 5: @@
 |-
 | 00:01
-|Warm greetings everyone!!  Welcome to this tutorial on ''' Build Molecules '''.
+|Warm greetings everyone!!  Welcome to this tutorial on ''' Build Molecules'''.
 |-
 | 00:07
-|In this tutorial, we will learn to: Import molecules from database
+|In this tutorial, we will learn to: '''Import''' molecules from database,
 |-
 | 00:11
-|Rotate, zoom in and zoom out
+|Rotate, zoom in and zoom out,
 |-
 | 00:15
-|Build molecules on the Panel
+|Build molecules on the Panel,
 |-
 | 00:17
-|Set up force field and optimize geometry
+|Set up force field and optimize geometry,
 |-
 | 00:21
-|Measure bond lengths, bond angles, dihedral angles
+|Measure bond lengths, bond angles, dihedral angles,
 |-
 | 00:25
-|Show fragment library
+|Show fragment library,
 |-
 | 00:27
-|Build DNA molecules and ''' Peptides ''' .
+|Build DNA molecules and ''' Peptides'''.
 |-
 | 00:31
-|Here I am using ''' Ubuntu Linux OS version 14.04 '''
+|Here I am using ''' Ubuntu Linux OS version 14.04 ''',
-'''  Avogadro '''  version 1.1.1
+'''Avogadro''' version 1.1.1,
 Working Internet connection.
 |-
 | 00:44
-|To follow this tutorial you should have, knowledge of basic Chemistry.
+|To follow this tutorial, you should have knowledge of basic Chemistry.
-To download '''  Avogadro '''  please use the link shown '''  sourceforge.net/projects/avogadro. '''
+To download '''  Avogadro,''' please use the link shown '''sourceforge.net/projects/avogadro.'''
 |-
 | 00:53
-|I have already downloaded ''' Avogadro '''
+|I have already downloaded ''' Avogadro.'''
 |-
 | 00:56
-|To open '''  Avogadro ''' , click on '''  '''  Dash home ''' .
+|To open '''Avogadro ''' , click on '''  Dash home ''' .
 |-
@@ Line 51: / Line 51: @@
 |-
 | 01:02
-|Click on '''  Avogadro'''  icon to open the application.
+|Click on '''  Avogadro'''  icon to open the '''application'''.
 |-
 | 01:08
@@ Line 57: / Line 57: @@
 |-
 | 01:15
-|To import a molecule, we need a working Internet connection.
+|To '''import''' a molecule, we need a working Internet connection.
 |-
 | 01:19
-|Click on '''  File '''  menu, navigate to '''  Import '''
+|Click on '''File'''  menu, navigate to '''  Import '''.
 |-
 | 01:23
@@ Line 73: / Line 73: @@
 |-
 | 01:30
-|For demonstration I will type '''  xylene'''  in the search box.
+|For demonstration, I will type '''  xylene'''  in the search box.
 |-
 | 01:36
@@ Line 83: / Line 83: @@
 | 01:42
 |Let's rotate the molecule on the ''' Panel''' .
 |-
 | 01:45
@@ Line 92: / Line 91: @@
 |-
 | 01:52
-|Hold the left mouse button and drag.
+|Hold the left '''mouse''' button and drag.
 |-
 | 01:56
@@ Line 98: / Line 97: @@
 |-
 | 02:00
-|To translate the molecule, use right mouse button and drag.
+|To '''translate''' the molecule, use right '''mouse''' button and drag.
 |-
 | 02:06
-|Scroll the mouse wheel to zoom in and zoom out the structure.
+|Scroll the mouse wheel to '''zoom in''' and '''zoom out''' the structure.
 |-
 | 02:10
@@ Line 111: / Line 110: @@
 | 02:19
 |Under '''  Draw Settings ''' menu, we can see
-'''  Element ''' drop down button
+'''  Element ''' drop down button,
-''' Bond Order '''  drop down button
+''' Bond Order '''  drop down button,
 ''' Adjust Hydrogens '''  check box.
 |-
@@ Line 143: / Line 142: @@
 |-
 | 03:10
-|To show double bonds, select '''  Double '''  from '''  Bond Order '''  drop down.
+|To show double-bonds, select '''  Double '''  from '''  Bond Order '''  drop-down.
 |-
 | 03:16
@@ Line 176: / Line 175: @@
 |-
 | 04:06
-|Click on '''  Force Field '''  drop down list, select '''  MMFF94 ''' .
+|Click on '''  Force Field '''  drop-down list, select '''  MMFF94 ''' .
 |-
 | 04:13
@@ Line 212: / Line 211: @@
 |-
 | 05:13
-|''' Save Molecule As'''  dialog box appears.
+|''' Save Molecule As'''  dialog-box appears.
 |-
 | 05:17
@@ Line 255: / Line 254: @@
 | 06:17
 |''' 2-methyl-1,3-butadiene ''' structure is displayed on the ''' Panel ''' .
 |-
 | 06:22
@@ Line 270: / Line 268: @@
 |-
 | 06:39
-|As an example: I will show '''  Vitamin A and natural rubber '''  which were built using ''' Isoprene ''' .
+|As an example: I will show '''Vitamin A and natural rubber''' which were built using '''Isoprene''' .
 |-
 | 06:47
@@ Line 306: / Line 304: @@
 |-
 | 07:41
-|To insert a '''  DNA '''  molecule, go to '''  Build '''  menu navigate to ''' Insert ''' and click on '''  ''' DNA/RNA ''' from the sub-menu.
+|To insert a '''  DNA '''  molecule, go to '''  Build '''  menu, navigate to ''' Insert ''' and click on '''  ''' DNA/RNA ''' from the sub-menu.
 |-
 | 07:51
@@ Line 324: / Line 322: @@
 |-
 | 08:14
-|For demonstration I will select '''  A T G C A T G C.'''
+|For demonstration, I will select '''  A T G C A T G C.'''
 |-
 | 08:26
@@ Line 342: / Line 340: @@
 |-
 | 08:56
-|Zoom out the structure and drag to the center of the '''  Panel ''' .
+|'''Zoom out''' the structure and drag to the center of the '''  Panel ''' .
 |-
 | 09:01
@@ Line 354: / Line 352: @@
 |-
 | 09:21
-|Go to ''' Build ''' menu scroll down to ''' Insert ''' and ''' Peptide ''' .
+|Go to ''' Build ''' menu, scroll down to ''' Insert ''' and ''' Peptide ''' .
 |-
 | 09:26
@@ Line 360: / Line 358: @@
 |-
 | 09:29
-|Select ''' amino acids ''' for the ''' Peptide'''  sequence by clicking on the ''' amino acids ''' buttons.
+|Select ''' amino acids ''' for the ''' Peptide'''  sequence by clicking on the ''' amino acids ''' button.
 |-
 | 09:36
-|For demonstration I will choose the sequence as '''  Glycine(Gly) -Valine(Val) -Proline(Pro) and Cystine(Cys) ''' .
+|For demonstration, I will choose the sequence as '''  Glycine(Gly) -Valine(Val) -Proline(Pro) and Cystine(Cys) ''' .
 |-
 | 09:45
-|The order of selection appear in the '''  Sequence ''' text box.
+|The order of selection appears in the '''  Sequence ''' text box.
 |-
 | 09:50
@@ Line 387: / Line 385: @@
 |-
 | 10:15
-|In this tutorial we learnt to :
+|In this tutorial, we learnt to :
 |-
 | 10:18
-|Import molecules from the database
+|Import molecules from the database,
 |-
 | 10:21
-|Rotate, zoom in and zoom out
+|Rotate, zoom in and zoom out,
 |-
 | 10:24
-|Build molecules on the panel
+|Build molecules on the panel,
 |-
 | 10:26
-|Set up force field and optimize geometry
+|Set up force field and optimize geometry,
 |-
 | 10:30
-|Measure bond lengths, bond angles, dihedral angles
+|Measure bond lengths, bond angles, dihedral angles,
 |-
 | 10:35
-|Show fragment library
+|Show fragment library,
 |-
 | 10:37
@@ Line 414: / Line 412: @@
 |-
 | 10:49
-|Optimize the geometry using ''' UFF''' force field
+|Optimize the geometry using ''' UFF''' force field.
 |-
 | 10:53
-|Save the image as ''' .cml '''  file.
+|Save the image as ''' .cml '''file.
 |-
 | 10:58
-| Build '''  RNA '''  sequence using the '''  Nucleic acids: AUGC '''
+| Build '''  RNA '''  sequence using the '''  Nucleic acids: AUGC '''.
 |-
 | 11:04
-|Optimize geometry using '''  MMFF94 '''  force field
+|Optimize geometry using '''MMFF94 '''force field.
 |-
 | 11:10
 |Save the image as ''' .cml ''' file.
 |-
 | 11:14
-|This video summarizes the Spoken Tutorial project
+|This video summarizes the '''Spoken Tutorial''' project.
 |-
 | 11:18
@@ Line 439: / Line 434: @@
 | 11:23
 |We conduct workshops using Spoken Tutorials and give certificates. Please contact us.
 |-
 | 11:30
-|Spoken Tutorial Project is funded by '''  NMEICT, MHRD Government of '''  India
+|Spoken Tutorial Project is funded by NMEICT, MHRD Government of India.
 |-
 | 11:36
 |This tutorial is contributed by Viswa Janani Vasudhevan and Madhuri Ganapathi. Thank you for joining.
 |}