From ad34e2bb12ce73242481fc3fe554d84ed4126623 Mon Sep 17 00:00:00 2001
From: praxics <49939724+mpl-group@users.noreply.github.com>
Date: Fri, 10 Nov 2023 11:14:47 +0000
Subject: [PATCH] s
---
2023_phd_advert.md | 42 +++++++++++++++++++++---------------------
index.md | 6 +++---
join.md | 6 +++---
3 files changed, 27 insertions(+), 27 deletions(-)
diff --git a/2023_phd_advert.md b/2023_phd_advert.md
index f47ff2a44..1ae2e4087 100644
--- a/2023_phd_advert.md
+++ b/2023_phd_advert.md
@@ -1,5 +1,6 @@
---
layout: page
+title: Open PhD position
alt title: PhD Postion in anerobic 3D printing of gut bacterial communities
---
@@ -11,11 +12,11 @@ alt title: PhD Postion in anerobic 3D printing of gut bacterial communities
### Key details
***3.5-year funded PhD position***
-Lead Supervisor: Dr. Ravinash Krishna Kumar
+Lead Supervisor: Dr Ravinash Krishna Kumar
Department: [Department of Infectious Disease](https://www.imperial.ac.uk/infectious-disease/){:target="_blank"}
-Location: Sir Alexander Flemming Building, Imperial College London, London, UK
+Location: Sir Alexander Fleming Building, Imperial College London, London, UK
-
+
***
@@ -25,22 +26,6 @@ Location: Sir Alexander Flemming Building, Imperial College London, London, UK
***
-### How to apply
-Please send your CV (including contact details of two referees) and a motivation letter for the project and lab to Dr Ravinash Krishna Kumar: by the ***12th of January 2024***.
-
-The project aims to start as early Feb 2024, with flexibility to start after this date.
-
-Informal enquiries are most welcome via email, video calling, and lab visits. Please get in touch again with Dr Ravinash Krishna Kumar:
-
-***
-
-### Eligibiltiy
-The studentship is funded by the Department of Infectious Diseases, Faculty of Medicine for 3.5 year ***home ([fee-status](https://www.imperial.ac.uk/study/fees-and-funding/tuition-fees/fee-status/){:target="_blank"}) PhD studentship***, which includes tuition fees, bursary commensurate with UKRI rates and £5,000 pa for research and training support.
-
-Applicants must have or expect to gain a First or Upper Second class undergraduate degree in Synthetic Biology, Systems Biology, Molecular Biology, Microbiology or other related field. A Masters Degree is desirable but not essential. Applicants are also required to meet [Imperial College’s English language requirements](https://www.imperial.ac.uk/study/ug/apply/requirements/english/){:target="_blank"}
-
-***
-
### Project
Bacteria often live together and interact with each other in densely packed communities. Such communities live in our digestive tract and are essential for our health. Critically, changes in the community diversity (number of species), productivity (total biomass), and structure (who-is-next-to-who) can lead to chronic and life-threatening diseases. It is a great challenge to study and understand these bacterial communities, especially at the micrometre length-scales at which they naturally occur. New methods are urgently needed to build simplified bacterial communities that capture the complex arrangements and interactions of different bacteria found within us.
@@ -79,10 +64,25 @@ Our research group prioritises a healthy research culture, collaboration, and fl
***
-### Imperial College London
+### How to apply
+Please send your CV (including contact details of two referees) and a motivation letter for the project and lab to Dr Ravinash Krishna Kumar: by the ***12th of January 2024***.
+
+The project aims to start as early Feb 2024, with flexibility to start after this date.
+
+Informal enquiries are most welcome via email, video calling, and lab visits. Please get in touch again with Dr Ravinash Krishna Kumar:
+
+***
-Imperial College is a hub for the advancement of synthetic biology and microbiome sciences. The successful student will be positioned to take advantage of the Centre for Synthetic Biology and Innovation and the London BioFoundry, along with the Department’s close ties with clinical scientists across the Faculty of Medicine and researchers in the Life Sciences and Bioengineering departments. The Department provides a well-developed teaching and support network for PhD students, and the research project will be pursued in the Sir Alexander Flemming Building at the vibrant South Kensington Campus in central London.
+### Eligibiltiy
+The studentship is funded by the Department of Infectious Diseases, Faculty of Medicine for 3.5 year ***home ([fee-status](https://www.imperial.ac.uk/study/fees-and-funding/tuition-fees/fee-status/){:target="_blank"}) PhD studentship***, which includes tuition fees, bursary commensurate with UKRI rates and £5,000 pa for research and training support.
+
+Applicants must have or expect to gain a First or Upper Second class undergraduate degree in Synthetic Biology, Systems Biology, Molecular Biology, Microbiology or other related field. A Masters Degree is desirable but not essential. Applicants are also required to meet [Imperial College’s English language requirements](https://www.imperial.ac.uk/study/ug/apply/requirements/english/){:target="_blank"}
+
+***
+
+### Imperial College London
+Imperial College is a hub for the advancement of [synthetic biology](https://www.imperial.ac.uk/synthetic-biology/centre/){:target="_blank"} and [microbiome sciences](https://www.imperial.ac.uk/microbiome-network/){:target="_blank"}. Moreover, you will be positioned to take advantage of the [London BioFoundry](https://www.londonbiofoundry.org/){:target="_blank"} and the [Advanced Hackspace](https://imperialhackspace.com/){:target="_blank"}, along with the Department’s close ties with clinical scientists across the Faculty of Medicine and researchers in the Life Sciences and Bioengineering departments. The Department provides a well-developed teaching and support network for PhD students, and the research project will be pursued in the Sir Alexander Fleming Building at the vibrant South Kensington Campus in central London.
diff --git a/index.md b/index.md
index 0c617458f..afe2fe7d2 100644
--- a/index.md
+++ b/index.md
@@ -7,11 +7,11 @@ image: /assets/images/printing.gif
introduction: |
We are a new research group based in the [Section of Structural and Synthetic Biology](https://www.imperial.ac.uk/infectious-disease/research/structural-bio/){:target="_blank"} in the [Department of Infectious Disease](https://www.imperial.ac.uk/infectious-disease/){:target="_blank"} at **Imperial College London**. Our group uses 3D printing and fluidic technologies to:
- - Build new microbiome models for understanding host-microbial community relationship
+ - build new microbiome models for understanding host-microbial community relationships
- - Build synthetic tissues for controlling living tissues
+ - build synthetic tissues for controlling living tissues
- - Build new engineered living materials.
+ - build new engineered living materials
---
We are generously supported by:
diff --git a/join.md b/join.md
index 5aa625afb..8414ba940 100644
--- a/join.md
+++ b/join.md
@@ -16,9 +16,9 @@ Watch this space!
**Open PhD studentship in anaerobic 3D printing of gut bacterial communities**
We have one open PhD studentship to start from Feb 2024 funded by Imperial College London. The aim is to use our 3D printing technology to understand structure function relationships in gut microbiota communites.
-For advert and to apply, [click here](2023_phd_advert){:target="_blank"}.
+***For advert and to apply, [click here](2023_phd_advert){:target="_blank"}.***
-Deadline: January 12th 2024, where we will then shortlist candidates for interviews.
+***Deadline: January 12th 2024, where we will then shortlist candidates for interviews.***
-Informal inquires are most welcome. Please contact [Dr Ravinash Krishna Kumar]().
+Informal enquires are most welcome. Please contact [Dr Ravinash Krishna Kumar]().