Authors: Nikki Ashton
Tags: #Humor & Entertainment, #Humor, #Love; Sex & Marriage, #Literature & Fiction, #Romance, #Contemporary, #Romantic Comedy
"Love
this book! It explores the trials and tribulations of three best girlfriends in
their early 30's...we've all been there and done it, so we can relate to it. In
parts it made me laugh out loud, in parts it made me cry, as life in reality
does. If you're a Jill Mansell fan you'll enjoy this book. I was really pleased
with how long it was, because I was enjoying it so much I didn't want it to
end. Looking forward to more novels by the same author. "
This funny and charming romance that tells the story of three twenty-something
friends and how they cope with the trials and tribulations of life; always
finding comfort and loyalty in each other.
Charlotte
is scatty and engaging and after having her heart broken 3 years earlier by
cheating, Capri driving, Grant she's now looking for love again believing that finding
Prince Charming will make her life complete; but is the arrogant but
frustratingly sexy Irishman, Niall Devine, that man?
Bets
is the glamorous good-time girl and beauty salon owner who secretly yearns to
settle down. She is the life and soul of the party with plenty of notches on
her bedpost but since flirting with hunky Stuart all summer she wonders if he
may be the one that she finally commits to.
Kerry,
of the impressive cleavage, is the only of the trio to be married and a mother.
She should feel satisfied and content but feels like she's missing out and
losing her identity. Suddenly she's turned in to the bitch from hell,
alienating all those around her, including Charlotte, Bets and her devoted
husband, Kelvin.
This is a charming story
focussing on friendship and love, but exploring some difficult and sensitive
issues in its course. It has humour and wry observations and some surprises
along the way. It will make you laugh out loud, smile, cry and desperate to
turn every page.
http://www.amazon.co.uk/Guess-Who-Pulled-Last-Night-ebook/dp/B00C7FH7J8/ref=cm_cr_pr_pb_t