985 E California, Pasadena, CA 91106
- 2 beds |
- 2 baths |
- 1,199 sqft
Condominium
Built in 1964
0.9acre lot
1 car garage
$600/sqft
Listed 1 day ago
Property Description
Welcome to 985 E California Blvd #101, Pasadena, CA 91106a beautifully maintained ground-floor condo offering comfort, convenience, and exceptional value. Competitively priced at just $719,000, this is a rare opportunity to own a home in one of Pasadena's most desirable neighborhoods at an attractive price. The spacious single-level floor plan features abundant natural light, an inviting living and dining area, a private patio, and a generous primary suite, making it ideal for both everyday living and entertaining. Located in the desirable Villa California community, residents enjoy resort-style amenities including a sparkling swimming pool, spa, beautifully landscaped grounds, BBQ area, and secure gated parking. The HOA also covers water, trash, and earthquake insurance, adding even more value and convenience. Ideally situated within walking distance to Downtown Pasadena, South Lake Avenue, shopping, restaurants, and cafes, this home also offers easy access to Caltech, Pasadena City College, and The Huntington Library. Whether you're a first-time buyer, downsizing, or looking for a smart investment, this competitively priced home at just $719,000 is an opportunity you won't want to miss!
- Listing Status:
- Active
- Date Added:
- June 30, 2026
- Data Last Updated:
- July 4, 2026 at 11:12PM
- Listing Office:
- Real Brokerage Technologies : 619-248-6434
- Listing Agent:
- YONGHAO ZHU : 840-200-8889
- MLS ID:
- WS26144389
- Pool: Community/Common
- Parking: Parking spaces: 1
- General: 4
- HOA Amenities: Pool830.0Monthly
- Originating MLS: California Regional MLS
- County: Los Angeles
- Zoning: 5327002033
- View: N/K
- Water: Public
- Sewer: Public Sewer
- Source: California Regional MLS
This listing courtesy of YONGHAO ZHU , Real Brokerage Technologies
Monthly Payment
- Principal & Interest $
- Property Taxes $
- Home Insurance $
- VA Funding Fee $






