import sys

class NFA:
    def __init__(self):
      self.initial_state = '0'
      self.final_states = set()

      self.transitions = dict()
      self.alphabet = set()

    def add_transition(self, state_from, state_to, symbol):

        if state_from in self.transitions.keys():
            if symbol not in self.transitions[state_from].keys():
                self.transitions[state_from][symbol] = {state_to}
            else:
                self.transitions[state_from][symbol] |= {state_to}
        else:
            self.transitions[state_from] = dict()
            self.transitions[state_from][symbol] = {state_to}

    def add_final_state(self, state):
        self.final_states.add(state)

    def get_final_states(self, string):
        current_states = {self.initial_state}
        for symbol in string:
            current_states = {state for current_state in current_states for state in self.transitions.get(current_state, {}).get(symbol, set())}
        return current_states

    def accepts(self, string):
        return any(final_state in self.final_states for final_state in self.get_final_states(string))


nfa = NFA()

table = open(sys.argv[1])
for line in table:
    line = line.rstrip('\n')
    if len(line.split('   ')) == 3:
        a, b, c = line.split('   ')
        c = c.replace("'","")
        c = list(c)
        for x in c:
            nfa.add_transition(a, b, x)
            nfa.alphabet.add(x)
    elif len(line.split('   ')) == 1:
        nfa.add_final_state(line)
    else:
        assert False

for line in sys.stdin:
    print("YES" if nfa.accepts(line.strip()) else "NO")