The position is filled. Thank you all for helping to spread the word!

TESS is an open-source package developed by Dr. Chris Benson (Ohio State), Dr. Ting-Hsuan Chen (NZ Plant & Food) & Mr. Tianyu Lu (Ohio State Senior UG). The study is conceived with Drs. Susan Thomson and Cecilia Deng (NZ Plant & Food). Please try it out! /n github.com/cwb14/TESS/t...

Using TESS and parameter sweep, we were able to approximate the TE dynamics of these three rust fungus genomes, revealing the two-stage evolution of myrtle rust (A. psidii), with a long-lasting genome expansion transitioned to aggressive contraction ~1.2 million generations ago.

We selected three extreme cases, being fast insertion/fast deletion/stable genome (Cronartium ribicola), slow insertion/slow deletion/stable genome (Puccinia coronata), and fast insertion/slow deletion/obese genome (Austropuccinia psidii), typical of eukaryotic genome dynamics.

What can TESS achieve? We used it to study the genome evolution dynamics of Pucciniomycotina, a subdivision of rust fungi with 58 high-quality genomes available and sizes varying from 20 Mb to 1018 Mb, mostly due to TE dynamics!

The PrinTE component of TESS makes genomes live on silicon chips! It can simulate TE insertions and deletions at any rates and dynamics, including complete deletions or creation of solo LTRs, and allow genomes to evolve forward in time. Here is one simulation of a digital genome:

The third mode of TEgenomeSimulator can simulate genomes with almost identical size, TE content, TE length distribution, and a normalized TE divergence (for ease of modeling) to real genomes - essentially digital replicas. This powerful mode allows in-silico genome evolution!

The TEgenomeSimulator component has three modes, which can simulate genomes representing snapshots of TE evolution at different stages: ancient expansion, recent expansion, long-lasting burst, and short burst.

The RandSeqInsert component can simulate TIR transposon insertions using a live-updated, high-performance AVL tree structure. It takes user-provided TIR libraries and allows setting varying lengths of target site duplications and nested insertions that mimic true TE insertions.

At this point, we still need human experts to distinguish AI-generated papers from authentic manuscripts, and even this fails quite frequently. Without peer review as gatekeepers, manuscript posting may become somewhat like blogging. Non-specialists will have a hard time distinguishing make-ups.

The job is at Ohio State University located in Columbus, Ohio, a very commutable, affordable, and livable city with enriched food, nature, and culture. We are a fun, diverse group that care for each other and promote individual success. Please help to repost! Thank you for your attention! 3/3

The position will need to drive the project to the finish line, including pretty-plotting, additional analyses, and writing. If you are looking for a short, impactful project that will drive your career to the next level, please give us a shot :) 2/n t.co/BENTN756GZ