Its too bad you are learning assembler for a microprocessor with a messy architecture. You get confusing concepts such as the LES instruction.
Conventional microprocessor have registers large enough to contain a full memory address. You can simply load the address of a memory location into a register, and then access that location (and usually those nearby with indexing) via the register.
Some machines (notably the Intel 286 which seems to be what you are programming), had only 16 bit registers but could address 1mB of memory. In this case, a register doesn't have enough bits: you need 20 bits, but the registers are only 16 bits.
The solution is to have a second register that contains the missing bits. A simple scheme would have been to require 2 registers, one of which had the lower 16 bits, one of which had the upper 16 bits, to produce a 32 bit address. Then the instruction that references two registers makes sense: you need both to get a full memory address.
Intel chose a messier scheme: the index register (bx in your case) contains the lower 16 bits, and the other register (called ES) contains 16 bits which are left-shifted 4 bits, and added to the index register, to get the resulting address. ES is called a "segment" register, but this will make no sense unless you go read about the Multics operating system circa 1968.
[Segments and segment registers really are an interesting idea when fully implemented the Multics way. If you don't know what this is, and you have any interest in computer and/or information architectues, find the Elliot Organick book on Multics and read it cover to cover. You will be dismayed at what we had in the late 60s and seem to have lost in 50 years of "progress".]
What's left of the idea in the x86 is pretty much a joke, at least the way it it used in "modern" operating systems. You don't really care; when some hardware designer presents you with a machine, you have to live with it as it is.
For the Intel 286, you simply have to load a segment register and an index register to get a full address. Each machine insturction has to reference one index register and one segment register in order to form a full address. For the Intel 286, there are 4 such segment reigsters: DS, SS, ES, and CS. Each instruction type explicitly designates an index register and implicitly chooses one of the 4 segment registers unless you provide an explicit override that says which one to use. JMP instructions use CS unless you say otherwise. MOV instructions use DS unless you say otherwise. PUSH instructions use SS unless you say otherwise (an in this case you better not). ES is the "extra" segment; you can only use it by explicitly referncing it in the instruction (except the block move [MOVB} instruction, which uses both DS and ES implicitly).
Hope that helps.
Best to work with a more modern microprocessor, where segment register silliness isn't an issue.