SOA is about a lot more than just sending JSON to a web client.
Imagine you have a business with a database-driven software system for things like sales, inventory, reporting, etc. Most systems start out small, with just a client or web app talking directly to the database... and that's okay.
However, as the system grows, there are some things you'll find that don't fit well inside this model: long-running batch processes that lock up the app or web page, scheduled jobs that involve more than just sql server, or complex reports that bog down your DB while they run. At this point, you'll want to think about adding an application server to handle some of these tasks. An application server can take some of that workload off of your clients. It can also take certain loads off what is likely by this time to be an over-worked database, such that the application server requests or submits raw data from/to the DB, and your application requests/submits transformed data from/to the application server. As the system grows even more, you'll also find that different parts of the system have unexpected side effects elsewhere as you maintain things. The application server now becomes a great place to centralize design efforts on how to make sure a change in one area has expected consequences everywhere else.
What an SOA really is, then, is taking that application server (which might happen to use json over http, but might also offer a completely different interface or even automatically translate among several data transport technologies) and enforcing all, not just some, database access goes through this application server (the service layer). Once this access is enforced, and nothing else talks directly to the database any more (at least, nothing that's not specifically accounted for), the layer also becomes a great place to start enforcing business rules and system logic, because you can write traditional application-style code here that's easier to use with source control than sql and will automatically be shared among any applications using the system. The code all lives in about the same place and so it's easier to model changes and their effects through the system. As a bonus, this layer is often very easy to scale out to multiple redundant servers, and so this can become a way to improve and manage performance of a large application. It can also improve performance by simplifying and centralizing efforts to use database caching tools like redis.
At this point, your MVC web site is just one more app that connects to the application server in your SOA system. You might also have a legacy client-server app installed on some desktops, or your MVC app may be public sales facing while actual sales and support reps use something completely different, billing uses a different app, and order fulfillment or procurement have yet another itnerface ... but they all talk to the same service layer. An additional advantage here is that this service layer makes it easier to pull in data from multiple sources, so if your manufacturing system needs material availability information from an outside system, the service layer can know how to go find that and front-end code doesn't have to know this data came from anywhere special.
The point of all this is that it's not a case of either/or here. If you have an SOA, you can use MVC at one level of the system, and the interface provided by the SOA's service layer will determine much of what your MVC model looks like. If you don't have an SOA, MVC just happens to work okay at building the whole stack, from database to presentation, and in fact works such that the model becomes a microcosm for a larger service layer.