x86 machine code only has one opcode for move-to-Sreg. That opcode is
mov Sreg, r/m16, and allows a register or memory source (but not immediate).
Contrary to some claims in other answers,
mov ds, [5000h] runs just fine, assuming the 2 bytes at address
5000h hold a useful segment value for the mode you're in. (Real mode where they're used directly as numbers vs. protected where Sreg values are selectors that index the LDT / GDT).
x86 always uses a different opcode for the immediate form of an instruction (with a constant encoded as part of the machine code) vs. the register/memory source version. e.g.
add eax, 123 assembles to a different opcode from
add eax, ecx. But
add eax, [esi] is the same opcode
add r, r/m32 opcode as
add eax, ecx, just a different ModR/M byte.
NASM listing, from
nasm sreg.asm -l/dev/stdout, assembling a flat binary in 16-bit mode and producing a listing.
I edited by hand to separate the bytes into
opcode modrm extra. These are all one-byte opcodes (with no extra opcode bits borrowing space in the /r field of the ModRM byte), so just look at the first byte to see what opcode it is, and notice when two instructions share the same opcode.
address machine code source ; comments
1 00000000 BE 0050 mov si, 5000h ; mov si, imm16
2 00000003 A1 0050 mov ax, [5000h] ; special encoding for AX, no modrm
3 00000006 8B 36 0050 mov si, [5000h] ; mov r16, r/m16 disp16
4 0000000A 89 C6 mov si, ax ; mov r/m16, r16
6 0000000C 8E 1E 0050 mov ds, [5000h] ; mov Sreg, r/m16
7 00000010 8E D8 mov ds, ax ; mov Sreg, r/m16
9 mov ds, 5000h
9 ****************** error: invalid combination of opcode and operands
mov Sreg, imm16 encoding would need a separate opcode. This would take extra transistors for 8086 to decode, and it would use up more opcode coding space leaving less room for future extensions. I'm not sure which of these was considered more important by the architect(s) of the 8086 ISA.
Notice that 8086 has special
mov AL/AX, moffs opcodes which save 1 byte when loading the accumulator from an absolute address. But it couldn't spare an opcode for
mov-immediate to Sreg? This design decision makes good sense. How often do you need to reload a segment register? Very infrequently, and in real large programs it often wouldn't be with a constant (I think). But in code using static data, you might be loading / storing the accumulator to a fixed address inside a loop. (8086 had very weak code-fetch, so code-size = speed most of the time).
Also keep in mind that you can use
mov Sreg, r/m16 for assemble-time constants with just one extra instruction (like
mov ax, 4321h). But if we'd only had
mov Sreg, imm16, runtime variable segment values would have required self-modifying code. (So obviously you wouldn't leave out the
r/m16 source version.) My point is if you're only going to have one, it's definitely going to be the register/memory source version.