One for Sorrow

“Did it work [...]

DNA 2021, 1 106 Figure 2) was ultimately proved right, however, and, as a result, we treated patients with the first ever cytogenetic PGD. Many families at risk of transmitting sex-linked disorders subsequently benefitted. The BMJ picked it up, as did BBC news and we were all on the TV. Joy was quite the publicist when she needed to be. Robert Winston was on the phone the following day and, by the end of the week, we were running clinical cases. The rest is history. Alan Handyside would biopsy the embryos early in the morning at the Hammersmith Hospital, Leeanda Wilton would have travelled there to lay the nuclei down on glass slides and then Dagan Wells and I would take the slides back to UCL for FISH and microscopy. No result left the lab until it had received the most careful and intense scrutiny from Joy and then a faxed report (remember those?) was sent back to the Hammersmith to inform selective embryo transfer. In point of fact, FISH might have been the original PGD protocol were it not for the fact that Joy was meticulous in her approach. The Y chromosome FISH protocol was equally as good as the new PCR (less prone to false positives in fact) but not nearly as "whizz-bang" and, hey, cytogenetics was not very trendy in these days. Joy, the "true blue" cytogeneticist, (for image of her, see Figure 2) was ultimately proved right, however, and, as a result, we treated patients with the first ever cytogenetic PGD. Many families at risk of transmitting sex-linked disorders subsequently benefitted. The BMJ picked it up, as did BBC news and we were all on the TV. Joy was quite the publicist when she needed to be.   Robert Winston was on the phone the following day and, by the end of the week, were running clinical cases. The rest is history. Alan Handyside would biopsy the e bryos early in the morning at the Hammersmith Hospital, Leeanda Wilton would h travelled there to lay the nuclei down on glass slides and then Dagan Wells and I wo take the slides back to UCL for FISH and microscopy. No result left the lab until it h received the most careful and intense scrutiny from Joy and then a faxed report (reme ber those?) was sent back to the Hammersmith to inform selective embryo transfer point of fact, FISH might have been the original PGD protocol were it not for the fact t Joy was meticulous in her approach. The Y chromosome FISH protocol was equally good as the new PCR (less prone to false positives in fact) but not nearly as "whizz-ban and, hey, cytogenetics was not very trendy in these days. Joy, the "true blue" cytogen cist, (for image of her, see Figure 2) was ultimately proved right, however, and, as a res we treated patients with the first ever cytogenetic PGD. Many families at risk of transm ting sex-linked disorders subsequently benefitted. The BMJ picked it up, as did BBC ne and we were all on the TV. Joy was quite the publicist when she needed to be.  It was often said that "Joy" was perhaps not the most appropriate name for someone who was so apparently serious, so considered and so very, very quiet. This is an unfair criticism in many ways. Joy was deep, there is no doubt. Silences between the sentences of a conversation were commonplace and, when on the phone, could be quite disconcerting. Nevertheless, that was Joy, she was just thinking and considering her next response; she did not waste words. On the other hand, she was clearly passionate about her science, would fiercely support her students and staff and she created an environment of discovery and learning, the like of which you do not always see in labs today. Fundamentally I remember the "joy" in Galton lab 208 that, thinking back now, was probably a direct result of her management methods. I remember the people that became lifelong friends and leaders in the field of PGD in their own right, including Dagan Wells, Sioban Sen Gupta, Alan Thornhill, Joyce Harper, to name but a few. I remember the silly "in" jokes ("this is a matter of honour!"-"get off my laaaand!"-"buckwheat"-"I must confess"). It would take too long to explain these here, but I would happily share with anyone the derivation of these strange phrases, perhaps over a drink. This was life in Joy's lab. Joy was rarely demonstrative, but always managed to create a buzz around her, while looking on with some bemusement at the dynamic environment for which she was responsible, Figure 3). remember the "joy" in Galton lab 208 that, thinking back now, was probably a direct result of her management methods. I remember the people that became lifelong friends and leaders in the field of PGD in their own right, including Dagan Wells, Sioban Sen Gupta, Alan Thornhill, Joyce Harper, to name but a few. I remember the silly "in" jokes ("this is a matter of honour!"-"get off my laaaand!"-"buckwheat"-"I must confess"). It would take too long to explain these here, but I would happily share with anyone the derivation of these strange phrases, perhaps over a drink. This was life in Joy's lab. Joy was rarely demonstrative, but always managed to create a buzz around her, while looking on with some bemusement at the dynamic environment for which she was responsible, Figure 3).
Children never appreciate how lucky they are (how can they, they have no frame of reference?), and the same applies to PhD students. But Joy let us make our own mistakes, picking up the pieces when necessary. She got us around the world (literally a circumnavigation in my case) to speak about our research at conferences. She got us published. I also felt the enormous pride of being asked back to UCL by her to be an external examiner both for MSc and PhDs. Such is her legacy, not only her academic "children" but also the "grandchildren" (students of her students)-a phrase that, by the way, she did not care for. There are even a few great grandchildren out there now. There are many lessons that we, her students, learned from Joy, some of which I will paraphrase here. I would like to think that many of these would resonate with other fellow Delhanty trainees. In point of fact, Joy would probably cringe at my attempts to sensationalise them. She once described the first draft of my thesis introduction as "too Children never appreciate how lucky they are (how can they, they have no frame of reference?), and the same applies to PhD students. But Joy let us make our own mistakes, picking up the pieces when necessary. She got us around the world (literally a circumnavigation in my case) to speak about our research at conferences. She got us published. I also felt the enormous pride of being asked back to UCL by her to be an external examiner both for MSc and PhDs. Such is her legacy, not only her academic "children" but also the "grandchildren" (students of her students)-a phrase that, by the way, she did not care for. There are even a few great grandchildren out there now.
There are many lessons that we, her students, learned from Joy, some of which I will paraphrase here. I would like to think that many of these would resonate with other fellow Delhanty trainees. In point of fact, Joy would probably cringe at my attempts to sensationalise them. She once described the first draft of my thesis introduction as "too sensationalist and journalese"-a trait she never quite managed to beat out of me. Nonetheless, here they are:

1.
Just do it. There is no good research unless you get on with it.

2.
Keep it simple, stupid. Joy was never comfortable speaking in public, given her inherent shyness. Overcoming this, however, her research talks were sublime, measured, clear and full of good science.

3.
Take your opportunities. Science is not always linear, planned and structured. Most of us often had a couple of projects on the go at any one time and were encouraged to take the new opportunities that they presented.

4.
Always give credit. There are few parts of academia that raise the hackles more than authorship and it is sometimes amazing, in hindsight, to realise how Joy would go out of her way to make sure that credit was properly attributed.

5.
There is nothing more important than your team. She empowered us, she showed us the way and then she watched with pride as we spread our wings. 6.
Be a teacher. Many of us had the opportunity to give lectures and teaching in her practical classes. We benefitted from it enormously. 7.
Publish and publicise. We did, and many of us continue to do so. By all accounts, her very last words were "make sure you get this published." Joy was one of the original cytogeneticists. Starting in 1956, and staying loyal to UCL until the end, she entered the field just at the time that the first determination of the correct human chromosome number was uncovered. She described the first human triploids; a discovery that led to the realization that triploidy [7,8] is one of the leading causes of pregnancy loss, providing reassurance to many thousands of couples that suffer first-trimester miscarriage. She discovered that Down Syndrome could be inherited by means of a Robertsonian Translocation [9][10][11] and she has a whole body of work in the molecular cytogenetics and molecular biology of cancer, particularly colon cancer, where there are a number of "firsts" in her CV. Perhaps her greatest contribution is her body of seminal work that tells us that the human embryo is not quite as it appears in the textbooks. A uniformly diploid number of 46 chromosomes in each and every cell is not the norm. Like Joy herself, early developing humans are complex, fluid and dynamic. Yes, dynamic, not in an overt way, and not a word normally associated with Joy. But dynamic nonetheless.
This Obituary is an expanded version of the one that can be found in Bionews [12].