IEEE 802.11 WLANs provide multiple transmission rates to improve the throughput by adapting the transmission rate to the current wireless channel conditions, and the dynamic bandwidth allocation is to minimize end-to-end delay via the efficient use of bandwidth in wireless networks. In wireless networks, packet loss and latency are frequently occurred by the movement of node. As the distance between nodes to AP is increased, the throughput is increasingly deteriorated. To provide Quality of Service(QoS) of multimedia service over wireless networks, IEEE 802.11e has developed a new protocol the uses differentiation mechanisms at the MAC layer. However, the IEEE 802.11e standard does not provide the algorithm for QoS of multimedia service. In this paper, we propose an Adaptive MAC(A-MAC) protocol in providing QoS for multimedia service. A-MAC protocol appropriately adjusts the data transmission rate based on the estimate wireless channel conditions, the measured Signal-to-Noise Ratio(SNR), the packet transmission success ratio, and the number of retransmissions at the sender-side. Moreover, it assigns the dynamic bandwidth allocation based on the transmission queue status. The simulation results show that proposed network-adaptive transmission architecture provides a better performance in terms of throughput and end-to-end delay.