Basically, current trends just ignore any reasonable thing, such as train/valid/test set. For now, the bigger, the better. This requires quite a lot of tech support functions (parallelization and data pipelining in particular) rather than theory-related ones.

I think the degree of "classical"/"foundational" relates to your exact thesis topic so it is hard to judge. And even then you can always put spins on it. For example a PhD thesis topic on"Reformulations of James-Stein estimators in the context of letf-censored data" would be indeed quite classical but then again if you want to focus on bio-themed ML applications, having a strong theoretical background on working with censored data. More directly, standard guidelines apply:

1. Collaborate with people outside your domain. It doesn't matter much if those are from the Biosciences, the Medical School or the Languages school. Show that while you are specialised, you can apply your specialism. (see point 3 too) This can also help to get a foot through the door for conference papers. (see point 2 too)
2. Publish multiple (non-junk) papers. That one, final year, awesome paper of Annal of Statistics might be the clutch 3-pointer for that junior faculty position but a steady research output stream even if less impactful shows you can deliver continuously. Early on it is actually quite hard particularly for non-specialists to evaluate the significance of a publication.
3. Code reasonably well. I am not talking C++ template meta-programming here, but be able to show that you can create an R or a Python package with some reasonable structure and quality. Extra point if you can use "ML tools" like JAX or PyTorch Lighting. You are not going to be lone gunman, you will be part of team. (Relates to point 1 a bit)
4. Know your ML fundamentals well. That's not that hard; you are a Stats PhD, being able to adequately explain GBMs or NNs Backprop or GMMs or Langangians means that someone from ML can talk shop with you. Yeah, you won't know particulars of AutoDiff or PPO; who cares? They won't probably know them either unless they are actively working on the matter.
5. Network. There is some network connectivity involved in hiring as well as in information diffusion. In addition, references matter. I remember out head of recruitment at my first job telling me that if I knew a good candidate I should let them know because for each position they would weed out internal referrals first (it makes sense, someone has already done "some screening").

You're hired!