Unless you have other requirements that dictate otherwise (e.g. scalability/redundancy), the best way is to keep everything in a single DB instance, define a table that collects all the countries you are interested in (along with their country-specific properties).
Country-cd |Country-Name | Currency | Language | Time-zone | Region-cd
it Italy EUR IT MET EMEA
... ... ... ... ... ...
jp Japan JPY jp JST Far-East
And then use the country code as part of the key for each other table that may have country-specific content... like prices:
Item-id | Country-cd | Valid-from | Valid-to | Amount x unit
950595 | IT | 03-MAY-2013 | 31-DEC-2099| 23.56
950595 | JP | 01-FEB-2013 | 12-AUG-2013| 2643.00
950595 | JP | 13-AUG-2013 | 31-DEC-2099| 2810.00
So the same item is priced at 23.56 Euros in Italy, and it will instead sold for 2643 Yen in Jp, from Feb.1st to Aug.12th, and then will increase in price to 2810 Yen.
Couple of caveats
- I have used ISO codes for country and the money. This should be
robust enough to avoid problems in the future. FOR THE LOVE OF GOD
DO NOT USE application-specific codes for things like states or
currencies. Even if you are designing it for a small portion of the
world, like, dunno... "German Speaking Countries" (Germany, Austria,
part of Switzerland) resist the temptation to use things like
GER/AUS/SWI or anything that is not standard.
- Time zones are horribly hairy to manage. I put that in the same table as country just to illustrate what kind of data should be associated to the country entry, but in reality some countries span more than one time zone (ru, us) and therefore you probably need a more sophisticated schema.
- On top of point (2) above, if your application really lives in a single-instance DB you have to decide a rule for how time is displayed to your users and stick to it. Consistently. See below.
The problem with world-spanning applications is that you may have a server in Bangalore with users in Rome. So you basically have two choices - you either timestamp every operation with the time zone of where the actual server "resides" and let the users adjust mentally for the discrepancies, or you still timestamp everything with a specific time zone (you can of course use UTC instead of local time, and this applies to the other method, too) and automagically translate this to the user local timezone while displaying.
So you may have something like "record created at UTC 12-MAY-2014 00:34" stored in your DB and show me "record was created at 12-MAY-2014 01:34 MET" because I am using your application from Italy.
(this will prove EASIER for the users especially if the application allows them to create entries with time as an input - for example booking a room for a meeting - but will cost you more in terms of development, and may become a bit complex to manage when the same record can be updated from different time zones).
These are the basics, really... you also have to read up about I18N, of course, and decide if you want error messages and UI labels to be multilingual. I18N cares mostly about that (i.e. how to manage input and output in different languages) but it also gives guidelines for more esoteric stuff like culturally-appropriated icons so I suggest to do a bit of research on it.