Alex McClelland
@alexjmcclelland.bsky.social
Postdoctoral scientist working at The Sainsbury Laboratory. Runner, musician, and baseball player probably staring at maps right now.
13/13 Thank you to my PhD supervisor, Wenbo, who always inspires scientists to climb new heights and to @thesainsburylab.bsky.social for being a wonderful place to do science.
Please read our preprint where we go into a lot more detail!
Please read our preprint where we go into a lot more detail!
October 10, 2025 at 2:47 PM
13/13 Thank you to my PhD supervisor, Wenbo, who always inspires scientists to climb new heights and to @thesainsburylab.bsky.social for being a wonderful place to do science.
Please read our preprint where we go into a lot more detail!
Please read our preprint where we go into a lot more detail!
11/ We also show that a PLCP called C14 can activate the defense gene PR1 only when LasOMP1 is also present and C14 is catalytically active. This suggests that PLCPs may release immune-activating peptides (PAMPs) from LasOMP1 in the plant!
October 10, 2025 at 2:25 PM
11/ We also show that a PLCP called C14 can activate the defense gene PR1 only when LasOMP1 is also present and C14 is catalytically active. This suggests that PLCPs may release immune-activating peptides (PAMPs) from LasOMP1 in the plant!
10/ So PLCPs cleave LasOMP1 as an antimicrobial strategy?
Sadly, Las can’t be grown in the lab, so this can’t be directly tested…
…but we found that plants producing higher levels of CsRD21a (OE) appear healthier and have less Las growth (i.e. a higher CT value) than “normal” wild-type (WT) plants!
Sadly, Las can’t be grown in the lab, so this can’t be directly tested…
…but we found that plants producing higher levels of CsRD21a (OE) appear healthier and have less Las growth (i.e. a higher CT value) than “normal” wild-type (WT) plants!
October 10, 2025 at 2:24 PM
10/ So PLCPs cleave LasOMP1 as an antimicrobial strategy?
Sadly, Las can’t be grown in the lab, so this can’t be directly tested…
…but we found that plants producing higher levels of CsRD21a (OE) appear healthier and have less Las growth (i.e. a higher CT value) than “normal” wild-type (WT) plants!
Sadly, Las can’t be grown in the lab, so this can’t be directly tested…
…but we found that plants producing higher levels of CsRD21a (OE) appear healthier and have less Las growth (i.e. a higher CT value) than “normal” wild-type (WT) plants!
9/ …the answer is yes!
We detected LasOMP1 in HLB-infected (+Las) citrus and saw clear evidence that it is being cut into smaller peptides. Excitingly, we see that a PLCP called CsRD21a produces a similar peptide product in the lab (semi-in vitro)!
We dive much deeper into this in the paper. 😀
We detected LasOMP1 in HLB-infected (+Las) citrus and saw clear evidence that it is being cut into smaller peptides. Excitingly, we see that a PLCP called CsRD21a produces a similar peptide product in the lab (semi-in vitro)!
We dive much deeper into this in the paper. 😀
October 10, 2025 at 2:23 PM
9/ …the answer is yes!
We detected LasOMP1 in HLB-infected (+Las) citrus and saw clear evidence that it is being cut into smaller peptides. Excitingly, we see that a PLCP called CsRD21a produces a similar peptide product in the lab (semi-in vitro)!
We dive much deeper into this in the paper. 😀
We detected LasOMP1 in HLB-infected (+Las) citrus and saw clear evidence that it is being cut into smaller peptides. Excitingly, we see that a PLCP called CsRD21a produces a similar peptide product in the lab (semi-in vitro)!
We dive much deeper into this in the paper. 😀
8/ LasOMP1 is produced at very high levels in both citrus and its insect host, called the Asian Citrus Psyllid, suggesting it may have an essential function to the bacterium.
Therefore, it is likely a good protein for the plant to destroy!
But is there evidence that PLCPs cleave LasOMP1...?
Therefore, it is likely a good protein for the plant to destroy!
But is there evidence that PLCPs cleave LasOMP1...?
October 10, 2025 at 2:22 PM
8/ LasOMP1 is produced at very high levels in both citrus and its insect host, called the Asian Citrus Psyllid, suggesting it may have an essential function to the bacterium.
Therefore, it is likely a good protein for the plant to destroy!
But is there evidence that PLCPs cleave LasOMP1...?
Therefore, it is likely a good protein for the plant to destroy!
But is there evidence that PLCPs cleave LasOMP1...?
7/ First, we identified six predicted cell surface-exposed proteins, called outer membrane proteins (OMPs), in Las.
Interestingly, two PLCPs interact with LasOMP1, suggesting that this OMP may be targeted by PLCPs.
Interestingly, two PLCPs interact with LasOMP1, suggesting that this OMP may be targeted by PLCPs.
October 10, 2025 at 2:21 PM
7/ First, we identified six predicted cell surface-exposed proteins, called outer membrane proteins (OMPs), in Las.
Interestingly, two PLCPs interact with LasOMP1, suggesting that this OMP may be targeted by PLCPs.
Interestingly, two PLCPs interact with LasOMP1, suggesting that this OMP may be targeted by PLCPs.
5/ Citrus greening, also known as Huanglongbing or HLB, is a devastating and challenging disease to study. There is no cure, and increased climate threats are making a bad situation worse.
October 10, 2025 at 2:20 PM
5/ Citrus greening, also known as Huanglongbing or HLB, is a devastating and challenging disease to study. There is no cure, and increased climate threats are making a bad situation worse.
4/ For example, the bacterium that causes citrus greening disease inhibits proteases (specifically papain-like cysteine proteases or PLCPs) using a protein called SDE1, thus contributing to disease.
This suggests that citrus PLCPs may cleave something important that the bacterium needs!
This suggests that citrus PLCPs may cleave something important that the bacterium needs!
October 10, 2025 at 2:19 PM
4/ For example, the bacterium that causes citrus greening disease inhibits proteases (specifically papain-like cysteine proteases or PLCPs) using a protein called SDE1, thus contributing to disease.
This suggests that citrus PLCPs may cleave something important that the bacterium needs!
This suggests that citrus PLCPs may cleave something important that the bacterium needs!
3/ In humans, proteases can destroy proteins on the surface of harmful bacteria, causing them to shrivel up and die! Might plants do the same?
October 10, 2025 at 2:18 PM
3/ In humans, proteases can destroy proteins on the surface of harmful bacteria, causing them to shrivel up and die! Might plants do the same?
2/ Proteases are enzymes that chop up/cleave other proteins. We know that many plant pathogens block protease functions in their hosts to contribute to disease…
…but we know very little about how these proteases function (i.e. what they are cleaving)!
…but we know very little about how these proteases function (i.e. what they are cleaving)!
October 10, 2025 at 2:17 PM
2/ Proteases are enzymes that chop up/cleave other proteins. We know that many plant pathogens block protease functions in their hosts to contribute to disease…
…but we know very little about how these proteases function (i.e. what they are cleaving)!
…but we know very little about how these proteases function (i.e. what they are cleaving)!
Very pleased to have passed my PhD viva today! Thank you Núria and @jonathandgjones.bsky.social for serving as my examiners and to Wenbo for your supervision and guidance! Has been a really great experience at @thesainsburylab.bsky.social!
Photo courtesy of @stephbornemann.bsky.social
Photo courtesy of @stephbornemann.bsky.social
December 4, 2024 at 6:09 PM
Very pleased to have passed my PhD viva today! Thank you Núria and @jonathandgjones.bsky.social for serving as my examiners and to Wenbo for your supervision and guidance! Has been a really great experience at @thesainsburylab.bsky.social!
Photo courtesy of @stephbornemann.bsky.social
Photo courtesy of @stephbornemann.bsky.social