Biosensor electrode structure and biosensor including the same

What is claimed is: 1 . A biosensor electrode structure comprising: a working electrode that penetrates a subject, the working electrode including an enzyme that changes a first electrical response corresponding to a first electrical stimulation applied to the subject to a second electrical response in the subject, different than the first electrical response; and first and second impedance electrodes that are spaced apart from each other, contact the subject, and receive the first electrical response and the second electrical response from the subject. 2 . The biosensor electrode structure of claim 1 , wherein the working electrode includes at least one enzyme electrode having a sharp, needle-shaped end that penetrates the subject, and at least a partial surface portion in which the enzyme is provided. 3 . The biosensor electrode structure of claim 2 , further comprising a protection layer that covers a surface of the enzyme electrode and includes a biodegradable material. 4 . The biosensor electrode structure of claim 2 , wherein the working electrode is spaced apart from and is disposed between the first and second impedance electrodes. 5 . The biosensor electrode structure of claim 2 , wherein the working electrode further includes a support electrode having a plate shape and contacting an end of the enzyme electrode opposite the needle-shaped end. 6 . The biosensor electrode structure of claim 2 , wherein the end of the enzyme electrode opposite the needle-shaped end contacts at least one of the first and second impedance electrodes. 7 . The biosensor electrode structure of claim 1 , further comprising a needle electrode having a sharp, needle-shaped end that penetrates the subject, and an end opposite the needle-shaped end that contacts at least one of the first and second impedance electrodes. 8 . The biosensor electrode structure of claim 1 , wherein the first electrical stimulation is provided to the subject through the first and second impedance electrodes. 9 . The biosensor electrode structure of claim 1 , wherein a second electrical stimulation for activating the enzyme is provided through the working electrode. 10 . The biosensor electrode structure of claim 1 , further comprising a third impedance electrode that contacts the subject and is spaced apart from the second impedance electrode. 11 . The biosensor electrode structure of claim 10 , wherein a distance between the first impedance electrode and the second impedance electrode is different from a distance between the second impedance electrode and the third impedance electrode. 12 . A biosensor comprising: a working electrode that penetrates a subject and includes an enzyme that causes a target material to react; an impedance electrode part including a plurality of impedance electrodes that contact the subject and are spaced apart from each other; a first stimulator that provides a first electrical stimulation to the subject through the impedance electrode part; a second stimulator that provides a second electrical stimulation for activating the enzyme through the working electrode; and a first detector that detects an electrical response corresponding to at least one of the first and second electrical stimulations from the subject through the impedance electrode part. 13 . The biosensor of claim 12 , wherein the impedance electrode part includes first and second impedance electrodes that are spaced apart from each other and that apply the electrical response to the first detector. 14 . The biosensor of claim 13 , wherein the first and second impedance electrodes transfer the first electrical stimulation from the first stimulator to the subject. 15 . The biosensor of claim 13 , wherein the impedance electrode part further includes third and fourth impedance electrodes that are spaced apart from each other and that transfer the first electrical stimulation from the first stimulator to the subject. 16 . The biosensor of claim 12 , further comprising a calculator that calculates a bioimpedance of the subject by using the first electrical stimulation and the electrical response. 17 . The biosensor of claim 16 , wherein the electrical response includes: a first electrical response corresponding to the first electrical stimulation; and a second electrical response corresponding to the first electrical stimulation and the second electrical stimulation. 18 . The biosensor of claim 17 , wherein the calculator further calculates a first bioimpedance by using the first electrical stimulation and the first electrical response, and calculates a second bioimpedance by using the first electrical stimulation and the second electrical response. 19 . The biosensor of claim 18 , further comprising a controller that acquires information about a target material in the subject by using at least one of the first bioimpedance and the second bioimpedance. 20 . A method of operating a biosensor, the biosensor including a working electrode that penetrates a subject and includes an enzyme for causing a target material to react, and a plurality of impedance electrodes that contact the subject and are spaced apart from each other, the method comprising: providing a first electrical stimulation to the subject through the plurality of impedance electrodes; detecting a first electrical response corresponding to the first electrical stimulation from the subject through the plurality of impedance electrodes; providing a second electrical stimulation to the subject through the working electrode; and detecting a second electrical response corresponding to the first electrical stimulation and the second electrical stimulation from the subject through the plurality of impedance electrodes.