Sandbox Reserved 1671

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Revision as of 03:37, 19 April 2021

This Sandbox is Reserved from 01/25/2021 through 04/30/2021 for use in Biochemistry taught by Bonnie Hall at Grand View University, Des Moines, USA. This reservation includes Sandbox Reserved 1665 through Sandbox Reserved 1682.

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Ald-C

This is a default text for your page '. Click above on edit this page' to modify. Be careful with the < and > signs.

You may include any references to papers as in: the use of JSmol in Proteopedia ^[1] or to the article describing Jmol ^[2] to the rescue.

1 Ald-C structure
2 Function of your protein
3 Biological relevance and broader implications
4 Important amino acids
5 Structural highlights
6 Other important features

Ald-C structure

Function of your protein

The enzyme is from a tomato plant. Ald-C is an aldehyde dehydrogenase which are known to preform many biological functions. This enzyme also functions as a long-chain aliphatic aldehyde dehydrogenase. It can detoxify highly reactive compounds such as aldehydes. In a plant they also help with cell wall ester biogenesis, and help plant when they feel "stress" such as dehydration or environmental changes. Ald-c is also linked to many biochemical processes such as ethanol metabolism by oxidation of acetyl aldehyde into acetate (removing aldehyde), and polyamine metabolism. On the other hand, AldC has also been linked to the synthesis of indol-3-acetic acid which is the primary plant hormone for P.Syringae.

Biological relevance and broader implications

The Pseudomonas syringae plant pathogen effects crops, it is relevant because farmers and people that work in the agriculture industry need to know of all the ways that their crops can get infected. Pseudomonas syringae makes the plants defenses against pathogens weak and it is more susceptible to get sick, by producing many different virulence factors such as parahormones, which are chemicals that are similar to the plants natural hormones but are not. Pseudomonas syringae can destroy many different plants in different environments and temperatures, it can also survive and spread through the leaves. IAA (Indole-3-Acetic Acid) is a main plant hormone that is produced in the apical bud of and young leaves of plants and is known to be an inducer of cell division and elongation. IAA is often used in horticulture to promote adventitious root growth and are used commercially to create root stem cuttings and to promote uniform fruit and flowering growth

This research is relevant to more areas in science because if someone want to make a defense chemical for Pseudomonas syringae they can use the chemistry in this paper to do so. There is a lost of valuable information that shows the chemistry, such as binding affinity. If someone is thinking about making a cure against Pseudomonas syringae they will need to know the characteristics of all the things that will bind well to it. This research paper also is useful in identifying superfamilies among different plant pathogens.

Important amino acids

There are which are essential for catalyzing the reactions and if one of them is mutated it can cause a huge effect in any enzyme. They are the ones that can preform acid base chemistry and catalyze the reaction which help it to make reactions happen appropriately. there are which are NAD and OYA (octantal). Cystine is an important amino acid but it was mutated to an alanine, which has possibly prevented the formation of a disulfide bridge.

The mutation was caused in the 291 position which is also one go the 4 catalytic residues. It was mutated to an alanine.

there are also other residues that are important for NAD binding.

Structural highlights

The octantal was the best substrate with the lowest Km and the highest affinity out of all 23 substrates. Ald-C is also a homodimer. The central beta sheets are surrounded by alpha helices to form the NAD(H) binding site. The C terminal region has a mixture of both alpha and betta domain, which includes the catalytic cysteine residue and forms the aldehyde – binding site.Due to the mutated cystine to an alanine there may have been a disturbance in a potential disulfides bridge that happens between 2 cysteines and are essential for stability.In this space fill scene you can see where the hydrogen bonds are. For the of Ald-C the alpha helices and beta sheets are shown

Other important features

Alanine substitutions of Glu 257 and Glu 391 severely disrupted AldC activity, showing that alanine had serious effects on other amino acids found along Ald-C. This is a sample scene created with SAT to by Group, and another to make of the protein. You can make your own scenes on SAT starting from scratch or loading and editing one of these sample scenes.

References

Lee, S. G., Harline, K., Abar, O., Akadri, S. O., Bastian, A. G., Chen, H. S., Duan, M., Focht, C. M., Groziak, A. R., Kao, J., Kottapalli, J. S., Leong, M. C., Lin, J. J., Liu, R., Luo, J. E., Meyer, C. M., Mo, A. F., Pahng, S. H., Penna, V., Raciti, C. D., … Jez, J. M. (2020). The plant pathogen enzyme AldC is a long-chain aliphatic aldehyde dehydrogenase. The Journal of biological chemistry, 295(40), 13914–13926. https://doi.org/10.1074/jbc.RA120.014747 IAA (Indole-3-Acetic acid). (n.d.). Retrieved April 19, 2021, from https://www.goldbio.com/product/1311/iaa-indole-3-acetic-acid

↑ Hanson, R. M., Prilusky, J., Renjian, Z., Nakane, T. and Sussman, J. L. (2013), JSmol and the Next-Generation Web-Based Representation of 3D Molecular Structure as Applied to Proteopedia. Isr. J. Chem., 53:207-216. doi:http://dx.doi.org/10.1002/ijch.201300024
↑ Herraez A. Biomolecules in the computer: Jmol to the rescue. Biochem Mol Biol Educ. 2006 Jul;34(4):255-61. doi: 10.1002/bmb.2006.494034042644. PMID:21638687 doi:10.1002/bmb.2006.494034042644

Retrieved from "http://52.214.119.220/wiki/index.php/Sandbox_Reserved_1671"

@@ Line 10: / Line 10: @@
 The enzyme<scene name='87/873233/Whole_thing/2'> Ald-C</scene> is from a tomato plant. Ald-C is an aldehyde dehydrogenase which are known to preform many biological functions. This enzyme also functions as a long-chain aliphatic aldehyde dehydrogenase. It can detoxify highly reactive compounds such as aldehydes. In a plant they also help with cell wall ester biogenesis, and help plant when they feel "stress" such as dehydration or environmental changes.
-Ald-c is also linked to many biochemical processes such as ethanol
+Ald-c is also linked to many biochemical processes such as ethanol metabolism by oxidation of acetyl aldehyde into acetate (removing aldehyde), and polyamine metabolism. On the other hand, AldC has also been linked to the synthesis of indol-3-acetic acid which is the primary plant hormone for P.Syringae.
-metabolism by oxidation of acetyl aldehyde into acetate (removing aldehyde), polyamine
-metabolism, plant cell wall ester biogenesis, to protective cellular responses to stress such as
-dehydration, osmotic shock, or even temperature changes. On the other hand, AldC has also
-been linked to the synthesis of indol-3-acetic acid which is the primary plant hormone for
-P.Syringae.
 == Biological relevance and broader implications ==
-The Pseudomonas syringae pant pathogen effects crops, it is relevant because farmers and people that work in the agriculture industry need to know of all the ways that their crops can get infected. Pseudomonas syringae makes the plants defenses against pathogens weak and it is more susceptible to get sick, by producing many different virulence factors such as parahormones, which are chemicals that are similar to the plants natural hormones but are not. Pseudomonas syringae can destroy many different plants in different environments and temperatures, it can also survive and spread through the leaves. IAA (Indole-3-Acetic Acid) is a main plant hormone that is produced in the apical bud of and young leaves of plants and is known to be an inducer of cell division and elongation
+The Pseudomonas syringae plant pathogen effects crops, it is relevant because farmers and people that work in the agriculture industry need to know of all the ways that their crops can get infected. Pseudomonas syringae makes the plants defenses against pathogens weak and it is more susceptible to get sick, by producing many different virulence factors such as parahormones, which are chemicals that are similar to the plants natural hormones but are not. Pseudomonas syringae can destroy many different plants in different environments and temperatures, it can also survive and spread through the leaves. IAA (Indole-3-Acetic Acid) is a main plant hormone that is produced in the apical bud of and young leaves of plants and is known to be an inducer of cell division and elongation.  IAA is often used in horticulture to promote adventitious root growth and are used commercially to create root stem cuttings and to promote uniform fruit and flowering growth
-This paper is relevant to more areas in science because if someone want to make a defense chemical for Pseudomonas syringae they can use the chemistry in this paper to do so. There is a lost of valuable information that shows the chemistry, such as binding affinity. If someone is thinking about making a cure against Pseudomonas syringae  they will need to know the characteristics of all the things that will bind well to it.
+This research is relevant to more areas in science because if someone want to make a defense chemical for Pseudomonas syringae they can use the chemistry in this paper to do so. There is a lost of valuable information that shows the chemistry, such as binding affinity. If someone is thinking about making a cure against Pseudomonas syringae  they will need to know the characteristics of all the things that will bind well to it. This research paper also is useful in identifying superfamilies among different plant pathogens.
-This research paper also is useful in identifying superfamilies among different plant pathogens. IAA is often used in horticulture to promote adventitious root growth and are used commercially to create root stem cuttings and to promote uniform fruit and flowering growth.
@@ Line 38: / Line 32: @@
 The octantal was the best substrate with the lowest Km and the highest affinity out of all 23 substrates.
-Ald-C is also a homodimer.
+Ald-C is also a homodimer. The central beta sheets are surrounded by alpha helices to form the NAD(H) binding site. The C terminal region has a mixture of both alpha and betta domain, which includes the catalytic cysteine residue and forms the aldehyde – binding site.Due to the mutated cystine to an alanine there may have been a disturbance in a potential disulfides bridge that happens between 2 cysteines and are essential for stability.In this space fill scene you can see where the hydrogen bonds are. For the <scene name='87/873233/Backbone/1'>secondary structure</scene> of Ald-C the alpha helices and beta sheets are shown
-The central beta sheets are surrounded by alpha helices to form the NAD(H) binding site.
-The C terminal region has a mixture of both alpha and betta domain, which includes the catalytic cysteine residue and forms the aldehyde – binding site.
-Due to the mutated cystine to an alanine there may have been a disturbance in a potential disulfides bridge that happens between 2 cysteines and are essential for stability.
-In this space fill scene you can see where the hydrogen bonds are.
-For the secondary structure of Ald-C the alpha helices and beta sheets are shown
 == Other important features ==

Sandbox Reserved 1671

From Proteopedia

Revision as of 03:37, 19 April 2021

Ald-C

Contents

Ald-C structure

Function of your protein

Biological relevance and broader implications

Important amino acids

Structural highlights

Other important features

References

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