Method for manufacturing multilayer ceramic electronic component, and multilayer ceramic electronic component

What is claimed is: 1. A method for manufacturing a multilayer ceramic electronic component, the method comprising: forming a plurality of ceramic green sheets; forming a plurality of internal electrode patterns on a main surface of each of the plurality of ceramic green sheets; applying a ceramic paste above the main surface of each of the plurality of ceramic green sheets; stacking the plurality of ceramic green sheets on which the internal electrode patterns have been formed and to which the ceramic paste has been applied; pressing the plurality of stacked ceramic green sheets; and cutting the plurality of pressed ceramic green sheets; wherein the forming of the plurality of internal electrode patterns and the applying of the ceramic paste are performed such that the ceramic paste overlaps end portions of the plurality of internal electrode patterns, and a stepped region, in which neither of the plurality of internal electrode patterns and the ceramic paste are provided, is included on the main surface of the ceramic green sheet; the cutting of the plurality of ceramic green sheets includes cutting the plurality of ceramic green sheets in a first direction; in the cutting of the plurality of ceramic green sheets in the first direction, the cutting is performed at a position of the stepped region that is located between two of the plurality of internal electrode patterns that are adjacent to each other in a second direction substantially orthogonal to the first direction; and the stepped region has a dimension in the second direction of about 40 μm or more, and has a dimension in the first direction which is substantially equal to or greater than a dimension in the first direction of each of the internal electrode patterns. 2. The method for manufacturing a multilayer ceramic electronic component according to claim 1 , wherein in the forming of the plurality of internal electrode patterns and the applying of the ceramic paste, one of the ceramic paste and the internal electrode pattern that is located on a lower side in a stacking direction at a position where the ceramic paste and the internal electrode pattern overlap each other is defined as a lower layer, and one of the ceramic paste and the internal electrode pattern that is located on an upper side is defined as an upper layer, the lower layer includes a main portion, and an end portion located on an outer side of the main portion and having a smaller thickness than the main portion; and a portion of the upper layer that is located on the main portion has a dimension of about 40 μm or less in the second direction. 3. The method for manufacturing a multilayer ceramic electronic component according to claim 1 , wherein the ceramic paste at least partially overlaps end portions of the plurality of internal electrode patterns that extend in at least one of the first direction and the second direction. 4. The method for manufacturing a multilayer ceramic electronic component according to claim 3 , wherein the plurality of internal electrode patterns include a main portion, and an end portion located on an outer side of the main portion and having a smaller thickness than the main portion; and the ceramic paste is applied only onto the end portion of the plurality of internal electrode patterns. 5. The method for manufacturing a multilayer ceramic electronic component according to claim 1 , wherein the multilayer ceramic electronic component is a multilayer ceramic capacitor. 6. The method for manufacturing a multilayer ceramic electronic component according to claim 1 , wherein the plurality of internal electrode patterns define a first internal electrode and a second internal electrode; the first internal electrode extends to a first end surface of the multilayer ceramic electronic component, and the second internal electrode extends to a second end surface of the multilayer ceramic electronic component. 7. The method for manufacturing a multilayer ceramic electronic component according to claim 6 , further comprising: forming a first external electrode over the first end surface; and forming a second external electrode over the second end surface; wherein the first external electrode is electrically connected to the first internal electrode; and the second external electrode is electrically connected to the second internal electrode. 8. The method for manufacturing a multilayer ceramic electronic component according to claim 1 , further comprising firing the ceramic paste. 9. The method for manufacturing a multilayer ceramic electronic component according to claim 1 , wherein the forming the plurality of internal electrode patterns includes printing a conductive paste on the main surface of the ceramic green sheet. 10. The method for manufacturing a multilayer ceramic electronic component according to claim 9 , wherein the printing is gravure printing, screen printing, or ink jet printing. 11. The method for manufacturing a multilayer ceramic electronic component according to claim 9 , wherein in the forming of the plurality of internal electrode patterns and the applying of the ceramic paste, each of the ceramic paste and the conductive paste has a plastic deformation characteristic; and an amount of plastic deformation of the ceramic paste is greater than an amount of plastic deformation of the conductive paste in the method for manufacturing the multilayer ceramic electronic component. 12. A method for manufacturing a multilayer ceramic electronic component, the method comprising: forming a plurality of ceramic green sheets; forming a plurality of internal electrode patterns on a main surface of each of the plurality of ceramic green sheets; applying a ceramic paste above the main surface of each of the plurality of ceramic green sheets; stacking the plurality of ceramic green sheets on which the internal electrode patterns have been formed and to which the ceramic paste has been applied; pressing the plurality of stacked ceramic green sheets; and cutting the plurality of pressed ceramic green sheets; wherein the forming of the plurality of internal electrode patterns and the applying of the ceramic paste are performed such that the ceramic paste overlaps end portions of the plurality of internal electrode patterns, and a stepped region, in which neither of the plurality of internal electrode patterns and the ceramic paste are provided, is included on the main surface of the ceramic green sheet; the cutting of the plurality of ceramic green sheets includes cutting the plurality of ceramic green sheets in a first direction; in the cutting of the plurality of ceramic green sheets in the first direction, the cutting is performed at a position of the stepped region that is located between two of the plurality of internal electrode patterns that are adjacent to each other in a second direction substantially orthogonal to the first direction; the ceramic paste at least partially overlaps end portions of the plurality of internal electrode patterns that extend in at least one of the first direction and the second direction; the plurality of internal electrode patterns include a main portion, and an end portion located on an outer side of the main portion and having a smaller thickness than the main portion; and the ceramic paste is applied only onto the end portion of the plurality of internal electrode patterns. 13. The method for manufacturing a multilayer ceramic electronic component according to claim 12 , wherein the main portion of the internal electrode patterns has a substantially constant thickness across the main portion. 14. The me