The performance of pure DOM operations (getElementById/Tagname/Selector, nextChild, etc) are unaffected as they're already in pure C++.
How the JS engine improvements will effect performance does depend to an extent on the particular techniques used for the performance improvements, as well as the performance of the DOM->JS bridge.
An example of the former is TraceMonkey's dependence on all calls being to JS functions. Because a trace effectively inlines the path of execution any point where the JS hits code that cannot be inlined (native code, true polymorphic recursion, exception handlers) the trace is aborted and execution falls back to the interpreter. The TM developers are doing quite a lot of work to improve the amount of code that can be traced (including handling polymorphic recursion) however realistically tracing across calls to arbitrary native functions (eg. the DOM) isn't feasible. For that reason I believe they are looking at implementing more of the DOM in JS (or at least in a JS friendly manner). That said, when code is traceable TM can do an exceptionally good job as it can lower most "objects" to more efficient and/or native equivalents (eg. use machine ints instead of the JS Number implementation).
V8 and JSC will check the 'implicit type'/'Structure' twice -- once for each access, and then check that
If you're looking at pure execution speed currently there's something of a mixed bag as each engine does appear to do better at certain tasks than others -- TraceMonkey wins in many pure maths tests, V8 wins in heavily dynamic cases, JSC wins if there's a mix. Of course while that's true today it may not be tomorrow as we're all working hard to improve performance.
The other issue i mentioned was the DOM<->JS binding cost -- this can actually play a very significant part in web performance, the best example of this is Safari 3.1/2 vs Chrome at the Dromaeo benchmark. Chrome is based off of the Safari 3.1/2 branch of WebKit so it's reasonably safe to assume similar DOM performance (compiler difference could cause some degree of variance). In this benchmark Safari 3.1/2 actually beats Chrome despite having a JS engine that is clearly much much slower, this is basically due to more efficient bindings between JSC/WebCore (the dom/rendering/etc of WebKit) and V8/WebCore
Currently looking at TM's DOM bindings seems unfair as they haven't completed all the work they want to do (alas) so they just fall back on the interpreter :-(
Errmmm, that went on somewhat longer than intended, so short answer to the original question is "it depends" :D
DOM optimization is a whole 'nother kettle of