def II() -> int : return int(input())
def MI() -> int : return map(int, input().split())
def TI() -> tuple[int] : return tuple(MI())
def LI() -> list[int] : return list(MI())
#str-input
def SI() -> str : return input()
def MSI() -> str : return input().split()
def SI_L() -> list[str] : return list(SI())
def SI_LI() -> list[int] : return list(map(int, SI()))
#multiple-input
def LLI(n) -> list[list[int]]: return [LI() for _ in range(n)]
def LSI(n) -> list[str]: return [SI() for _ in range(n)]
#1-indexを0-indexでinput
def MI_1() -> int : return map(lambda x:int(x)-1, input().split())
def TI_1() -> tuple[int] : return tuple(MI_1())
def LI_1() -> list[int] : return list(MI_1())
n = II()
edge = [set() for i in range(n)]
for i in range(n-1):
u,v = MI_1()
edge[u].add(v)
edge[v].add(u)
mod = 998244353
class Comb: #combination列挙
def __init__(self,lim,mod = mod):
"""
mod : prime指定
lim以下のmodでcomdination計算
"""
self.fac = [1,1]
self.inv = [1,1]
self.finv = [1,1]
self.mod = mod
for i in range(2,lim+1):
self.fac.append(self.fac[i-1]*i%self.mod)
self.inv.append(-self.inv[mod%i]*(mod//i)%self.mod)
self.finv.append(self.finv[i-1]*self.inv[i]%self.mod)
def F(self,a):
return self.fac[a]
def C(self,a,b):
#自然な拡張
assert b >= 0, "第2引数の値が負です"
if a < b: return 0
if a < 0: return 0
# 0 <= a ∧ b <= a (b < 0でバグる)
return self.fac[a]*self.finv[b]*self.finv[a-b]%self.mod
def P(self,a,b):
assert b >= 0, "第2引数の値が負です"
if a < b: return 0
if a < 0: return 0
return self.fac[a]*self.finv[a-b]%self.mod
def H(self,a,b):
return self.C(a+b-1,b)
def Fi(self,a):
return self.finv[a]
comb = Comb(n)
def DFS_par(edge): #親の情報をうまく持つDFS
n = len(edge)
st = [(0,None,0)]
size = [1]*n
ans = 1
while st:
now,par,t = st.pop()
if t == 0:
st.append((now,par,1))
#行きがけ
for chi in edge[now]:
if chi != par:
st.append((chi,now,0))
else:
if now == 0:
return ans
l = len(edge[now]) #子どもの個数
ans *= comb.F(l)
size[par] += size[now]
pass
#帰りがけ
print(DFS_par(edge)*comb.Fi(n-1)%mod)