34 Great Lawn, Irvine, CA 92620
- 4 beds |
- 4 baths |
- 3,094 sqft
Single-Family Home
Built in 2010
4,822sqft lot
2 car garage
$901/sqft
Listed 19 days ago
Property Description
Luxury former model home located in the highly sought-after Woodbury community of Irvine. This beautifully appointed residence features 4 bedrooms and 4 bathrooms, including a convenient main-level bedroom and full bath, ideal for guests or multigenerational living. Situated on a premium corner lot adjacent to the Jeffrey Trail open space, the home offers exceptional privacy and an ideal indooroutdoor lifestyle. The inviting California Room and open-concept floor plan provide seamless spaces for both entertaining and everyday relaxation. The expanded chefs kitchen is thoughtfully designed for culinary enthusiasts, complemented by well-planned home organization and launch areas that enhance daily functionality. Residents enjoy resort-style amenities, including parks, pools, recreation centers, and community gardens. Conveniently located near top-rated Irvine schools and Woodbury Town Center, this exceptional home perfectly blends luxury, comfort, and convenience.
- Listing Status:
- Active
- Date Added:
- June 15, 2026
- Data Last Updated:
- July 5, 2026 at 8:12PM
- Listing Office:
- Spectrum Realty : 949-551-9888
- Listing Agent:
- Cayenne Kuang : 949-872-7700
- MLS ID:
- OC26130603
- General: Community/Common
- Pool: PrivateAssociation
- Parking: GarageGarage - Single DoorParking spaces: 2
- General: 2
- HOA Amenities: Hiking TrailsOutdoor Cooking AreaPicnic AreaPlaygroundSport CourtBarbecuePool210.0Monthly
- Originating MLS: California Regional MLS
- County: Orange
- Zoning: 55117239
- View: N/K
- Restrictions: CC&R's
- Utilities: Cable AvailableElectricity AvailableNatural Gas AvailableSewer AvailableWater Available
- Water: Public
- Sewer: Public Sewer
- Source: California Regional MLS
This listing courtesy of Cayenne Kuang , Spectrum Realty
Monthly Payment
- Principal & Interest $
- Property Taxes $
- Home Insurance $
- VA Funding Fee $






